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+id,title,country,pub_date,abstract,classification_number,classification_description,claims,description,inventor_name,forward_cites,backward_cites,all_cites,forward_cites_filtered,backward_cites_filtered,all_cites_filtered
+IN2013DE00589A,Patent IN2013DE00589A ,IN,2015-06-26,"Systems and methods for accessing multimedia content are described. In one implementation, the method for accessing multimedia content comprises receiving a user query for accessing multimedia content of a multimedia class. The multimedia content is associated with a plurality of multimedia classes and each of the plurality of multimedia classes is linked with one or more portions of the multimedia content. The method further comprises executing the user query on a media index of the multimedia content. Based on the execution of the user query, the portions of the multimedia content tagged with the multimedia class are identified. Further, tagged portion of the multimedia content tagged with the multimedia class is retrieved based on the execution of the user query. The method further includes transmitting the tagged portion of the multimedia content to the user through a mixed reality multimedia interface.",G06F21/31,User authentication,,,Suryanarayanan Vinoth,"['US9749607B2', 'US8565536B2', 'US20150255057A1', 'US10424038B2', 'US9635378B2', 'US9639762B2', 'US9754341B2', 'US10783601B1', 'FR3038415B1', 'KR102403502B1', 'US10678828B2', 'US10694222B2', 'US9460168B1', 'KR101697274B1', 'CN114390350B', 'US10922551B2', 'US10740620B2', 'US10896307B2', 'US10872392B2', 'US11062108B2', 'CN110197472B', 'US11095947B2', 'KR102569032B1', 'US10776669B1', 'GB2582952B', 'US20220358762A1', 'CN111507413B', 'CN111818362A', 'US11514949B2', 'US11916908B2', 'US11599574B2', 'KR20220083294A', 'CN113411675B', 'KR20240053154A']",['US9264471B2'],"['US9749607B2', 'US8565536B2', 'US20150255057A1', 'US10424038B2', 'US9635378B2', 'US9639762B2', 'US9754341B2', 'US10783601B1', 'FR3038415B1', 'KR102403502B1', 'US10678828B2', 'US10694222B2', 'US9460168B1', 'KR101697274B1', 'CN114390350B', 'US10922551B2', 'US10740620B2', 'US10896307B2', 'US10872392B2', 'US11062108B2', 'CN110197472B', 'US11095947B2', 'KR102569032B1', 'US10776669B1', 'GB2582952B', 'US20220358762A1', 'CN111507413B', 'CN111818362A', 'US11514949B2', 'US11916908B2', 'US11599574B2', 'KR20220083294A', 'CN113411675B', 'KR20240053154A', 'US9264471B2']","['CN114390350B', 'CN110197472B', 'CN111507413B', 'CN111818362A', 'CN113411675B']",[],"['CN114390350B', 'CN110197472B', 'CN111507413B', 'CN111818362A', 'CN113411675B']"
+IN2013CH05995A,Patent IN2013CH05995A ,IN,2015-06-26,"The present invention provides a method and system for generating negative test input data. A set of attributes and a set of attribute properties can be extracted from a requirement specification. A constraint representation syntax can be framed from the extracted set of attribute properties. A structured diagram is modeled from the framed constraint representation syntax and a set of use cases, a set of path predicates can be constructed from the structured diagram. One or more attribute classes can be determined from the set of path predicates based on an attribute constraint and an attribute dependency. The negative test input data shall be generated from the one or more attribute classes using genetic algorithm. REF FIG: 1",G06F11/3684,"Test management for test design, e.g. generating new test cases",,,Pasala Dr Anjaneyulu,"['GB201504373D0', 'US10031839B2', 'US10795752B2', 'CN109376075B', 'CN109684366A', 'CN112380138B', 'US11200151B1', 'US11550707B2', 'CN114780439B']","['US5913023A', 'US6928393B2', 'US20060010426A1', 'US20060031718A1', 'JP4148527B2', 'US7926114B2', 'US8302080B2', 'US8869111B2', 'US8448146B2']","['GB201504373D0', 'US10031839B2', 'US10795752B2', 'CN109376075B', 'CN109684366A', 'CN112380138B', 'US11200151B1', 'US11550707B2', 'CN114780439B', 'US5913023A', 'US6928393B2', 'US20060010426A1', 'US20060031718A1', 'JP4148527B2', 'US7926114B2', 'US8302080B2', 'US8869111B2', 'US8448146B2']","['CN109376075B', 'CN109684366A', 'CN112380138B', 'CN114780439B']",[],"['CN109376075B', 'CN109684366A', 'CN112380138B', 'CN114780439B']"
+IN2014DN06869A,Patent IN2014DN06869A ,IN,2015-05-22,The present invention provides compounds having the general structural formula (I) and pharmaceutically acceptable derivatives thereof as described generally and in classes and subclasses herein and additionally provides pharmaceutical compositions thereof and methods for the use thereof for the treatment of any of a number of conditions or diseases involving abnormal or excessive fibrosis.,A61K31/437,"Heterocyclic compounds having nitrogen as a ring hetero atom, e.g. guanethidine or rifamycins having six-membered rings with one nitrogen as the only ring hetero atom ortho- or peri-condensed with heterocyclic ring systems the heterocyclic ring system containing a five-membered ring having nitrogen as a ring hetero atom, e.g. indolizine, beta-carboline",,,Bijoy Panicker,"['ES2748873T3', 'US9597321B2', 'US20150105380A1', 'CN104387385B', 'US10544140B2', 'ES2836255T3', 'EP3463366A4', 'US20220401423A1', 'WO2022006278A1', 'EP4175634A4', 'WO2022006277A1', 'WO2022165092A1']","['GB9721437D0', 'AU4685799A', 'GB9904995D0', 'US6982265B1', 'US6762180B1', 'UA75054C2', 'CA2407799A1', 'WO2004050681A2', 'PE20060777A1', 'WO2008138184A1', 'WO2008138232A1', 'WO2009042646A1', 'TWI440638B', 'WO2010088000A2', 'WO2010144959A1', 'JP2011213697A', 'US9597321B2', 'ES2748873T3', 'US20150105380A1']","['ES2748873T3', 'US9597321B2', 'US20150105380A1', 'CN104387385B', 'US10544140B2', 'ES2836255T3', 'EP3463366A4', 'US20220401423A1', 'WO2022006278A1', 'EP4175634A4', 'WO2022006277A1', 'WO2022165092A1', 'GB9721437D0', 'AU4685799A', 'GB9904995D0', 'US6982265B1', 'US6762180B1', 'UA75054C2', 'CA2407799A1', 'WO2004050681A2', 'PE20060777A1', 'WO2008138184A1', 'WO2008138232A1', 'WO2009042646A1', 'TWI440638B', 'WO2010088000A2', 'WO2010144959A1', 'JP2011213697A', 'US9597321B2', 'ES2748873T3', 'US20150105380A1']",['CN104387385B'],[],['CN104387385B']
+IN2014MN02221A,Patent IN2014MN02221A ,IN,2015-07-17,In accordance with embodiments disclosed herein there are provided apparatus systems and methods for impulse noise detection and mitigation. For example in one embodiment such means include means for detecting impulse noise; means for classifying the detected impulse noise into one of a plurality of impulse noise classes affecting communications on a Digital Subscriber Line (DSL line); means for selecting a noise mitigation strategy from among a plurality of noise mitigation strategies; means for applying the selected noise mitigation strategy; and means for validating application of the noise mitigation strategy.,H04L1/0015,"Systems modifying transmission characteristics according to link quality, e.g. power backoff characterised by the adaptation strategy",,,Chan Soo Hwang,"['US10128905B2', 'US9577656B2', 'US10425285B2', 'KR102082960B1', 'US10664388B2', 'US10616781B2', 'US10171081B1', 'CN108880622B', 'WO2021179235A1']","['JPH10163930A', 'JP2001251226A', 'US20050026572A1', 'US8194722B2', 'US20060222098A1', 'CN103312536A', 'JP2008236697A', 'US8175291B2', 'EP2241007A4', 'US8396688B2', 'JP2010283758A', 'CN101854232B']","['US10128905B2', 'US9577656B2', 'US10425285B2', 'KR102082960B1', 'US10664388B2', 'US10616781B2', 'US10171081B1', 'CN108880622B', 'WO2021179235A1', 'JPH10163930A', 'JP2001251226A', 'US20050026572A1', 'US8194722B2', 'US20060222098A1', 'CN103312536A', 'JP2008236697A', 'US8175291B2', 'EP2241007A4', 'US8396688B2', 'JP2010283758A', 'CN101854232B']",['CN108880622B'],"['CN103312536A', 'CN101854232B']","['CN108880622B', 'CN103312536A', 'CN101854232B']"
+IN2013MU01938A,Patent IN2013MU01938A ,IN,2015-05-29,"The subject matter discloses systems and methods for selection of an optimum feature subset. According to the present subject matter, the system (102) implements the described method, where the method includes obtaining a plurality of features extracted from data sets associated with objects representing multiple classes, computing an intra-class variation factor and an inter-class variation factor for multiple feature subsets, from amongst the plurality of features, and identifying an optimum feature subset, from amongst the multiple feature subsets, based on minimization of the intra-class variation factor and maximization of the inter-class variation factor using differential evolution.",A61B5/7264,"Classification of physiological signals or data, e.g. using neural networks, statistical classifiers, expert systems or fuzzy systems",,,Kingshuk Chakravarty,"['CN105137717B', 'CN105184803A', 'US10558933B2', 'CN108573338A', 'CN109636487B', 'CN109885710B', 'CN111553530B']","['US6847737B1', 'US7555153B2', 'US7647098B2', 'US20080101705A1', 'US8488863B2']","['CN105137717B', 'CN105184803A', 'US10558933B2', 'CN108573338A', 'CN109636487B', 'CN109885710B', 'CN111553530B', 'US6847737B1', 'US7555153B2', 'US7647098B2', 'US20080101705A1', 'US8488863B2']","['CN105137717B', 'CN105184803A', 'CN108573338A', 'CN109636487B', 'CN109885710B', 'CN111553530B']",[],"['CN105137717B', 'CN105184803A', 'CN108573338A', 'CN109636487B', 'CN109885710B', 'CN111553530B']"
+IN2012DN00877A,Patent IN2012DN00877A ,IN,2015-07-10,"The invention concerns a flavour active composition obtainable by a multi-step reaction comprising a first reaction between an amino compound and a carbonyl compound to obtain a first intermediate reaction mixture, a second reaction with a second amino compound alone or in combination with a carbonyl compound to obtain a second intermediate reaction mixture, further separate reactions with another amino compound alone or in combination with a carbonyl compound to obtain further intermediate reaction mixture, further separate reactions with compounds from other chemical classes such as alcohols, phenolic compounds, epoxydes or organic acids and combinations thereof leading to suitable intermediates, a last reaction comprising a mixture of all the preceding intermediate mixtures alone or in combination with amino and/or carbonyl compounds to obtain the final flavor composition.",A23L27/215,"Synthetic spices, flavouring agents or condiments containing amino acids heated in the presence of reducing sugars, e.g. Maillard's non-enzymatic browning",,,Tomas Davidek,"['CN102132768B', 'MX370056B', 'US9307860B2', 'CN104000163B', 'MX2017013715A', 'AU2017250779B2', 'CN110169563A', 'CN113729199B', 'CN113826867A', 'CN114717050B']","['FR2012745A1', 'GB9706235D0', 'EP1301090A1', 'CN1635837A', 'GB0319463D0']","['CN102132768B', 'MX370056B', 'US9307860B2', 'CN104000163B', 'MX2017013715A', 'AU2017250779B2', 'CN110169563A', 'CN113729199B', 'CN113826867A', 'CN114717050B', 'FR2012745A1', 'GB9706235D0', 'EP1301090A1', 'CN1635837A', 'GB0319463D0']","['CN102132768B', 'CN104000163B', 'CN110169563A', 'CN113729199B', 'CN113826867A', 'CN114717050B']",['CN1635837A'],"['CN102132768B', 'CN104000163B', 'CN110169563A', 'CN113729199B', 'CN113826867A', 'CN114717050B', 'CN1635837A']"
+IN2015DE02745A,Patent IN2015DE02745A ,IN,2015-09-25,"The present disclosure discloses system and method for evaluating a human resource in a software development environment. At first, historical performance data and profile data associated with a plurality of human resources involved in a software project is received. From such data (historical performance data and profile data), a plurality of attributes is extracted. Further, Bayesian classification technique is implemented on the plurality of attributes in order to classify the plurality of attributes, of each human resource, into a plurality of classes. The plurality of attributes are classified in such a manner that at least one attribute corresponding to at least one human resource and at least one other human resource is classified into a class and another class respectively. Further, based on the classification of each attribute associated with the human resource, a grade is assigned to the human resource.",G06F8/77,Software metrics,,,Ashutosh Shukla,"['US11288592B2', 'US10754640B2', 'US10585780B2', 'US10719315B2', 'CN111143556B', 'US11321644B2', 'CN111428963B', 'US20210334729A1', 'CN111881051B', 'US11392375B1']","['US6751650B1', 'US7406434B1', 'US6754874B1', 'US6901301B2', 'CN101091173A', 'US8275651B2', 'WO2008060620A2', 'US8336028B2', 'US9378015B2', 'US8726236B2', 'US9032360B1', 'US9251472B1', 'US20130262453A1', 'US9904579B2', 'WO2015053861A2', 'US9961202B2']","['US11288592B2', 'US10754640B2', 'US10585780B2', 'US10719315B2', 'CN111143556B', 'US11321644B2', 'CN111428963B', 'US20210334729A1', 'CN111881051B', 'US11392375B1', 'US6751650B1', 'US7406434B1', 'US6754874B1', 'US6901301B2', 'CN101091173A', 'US8275651B2', 'WO2008060620A2', 'US8336028B2', 'US9378015B2', 'US8726236B2', 'US9032360B1', 'US9251472B1', 'US20130262453A1', 'US9904579B2', 'WO2015053861A2', 'US9961202B2']","['CN111143556B', 'CN111428963B', 'CN111881051B']",['CN101091173A'],"['CN111143556B', 'CN111428963B', 'CN111881051B', 'CN101091173A']"
+IN2011KN03541A,Patent IN2011KN03541A ,IN,2015-07-10,"Methods, apparatus, and systems for measuring, on a per-QoS-class basis, the average number of user devices active on the uplink of a wireless communication system are disclosed. In an exemplary method, a number of mobile terminals with buffered data for transmission to a base station is estimated based on received buffer status reports. An estimated quantity of active mobile terminals is calculated, based on the received buffer status reports and a number of mobile terminals for which a semi-persistent scheduling grant has been granted. In some embodiments, the estimated quantity of active mobile terminals is estimated on a per-traffic-class basis, in which case the technique includes calculating first and second estimated quantities, corresponding to mobile terminals having active data bearers for first and second traffic classes, respectively, based on the received buffer status reports and the number of mobile terminals for which a semi-persistent scheduling grant has been granted.",H04W24/08,"Testing, supervising or monitoring using real traffic",,,Janne Peisa,"['JP5432290B2', 'EP2237633A1', 'IT1402750B1', 'GB2485235B', 'US8654691B2', 'US8937876B2', 'US8611240B2', 'US8630202B2', 'US8989113B2', 'CN103634914B', 'CN104704871B', 'US9204334B2', 'US20150215158A1', 'US20150359000A1', 'US10045369B2', 'CN105142220B', 'US10604011B2', 'US10877008B2', 'US10663440B2', 'EP3685598A4', 'US11696239B1']","['JP4108006B2', 'JP3895364B2', 'CN100592817C', 'WO2007148927A1', 'US8848618B2', 'KR101384078B1', 'ES2684358T3', 'KR101007824B1', 'US8406179B2', 'EP2587706B1', 'BRPI0820059A2', 'US8699487B2', 'JP5432290B2', 'EP2237633A1']","['JP5432290B2', 'EP2237633A1', 'IT1402750B1', 'GB2485235B', 'US8654691B2', 'US8937876B2', 'US8611240B2', 'US8630202B2', 'US8989113B2', 'CN103634914B', 'CN104704871B', 'US9204334B2', 'US20150215158A1', 'US20150359000A1', 'US10045369B2', 'CN105142220B', 'US10604011B2', 'US10877008B2', 'US10663440B2', 'EP3685598A4', 'US11696239B1', 'JP4108006B2', 'JP3895364B2', 'CN100592817C', 'WO2007148927A1', 'US8848618B2', 'KR101384078B1', 'ES2684358T3', 'KR101007824B1', 'US8406179B2', 'EP2587706B1', 'BRPI0820059A2', 'US8699487B2', 'JP5432290B2', 'EP2237633A1']","['CN103634914B', 'CN104704871B', 'CN105142220B']","['CN100592817C', 'BRPI0820059A2']","['CN103634914B', 'CN104704871B', 'CN105142220B', 'CN100592817C', 'BRPI0820059A2']"
+IN2012DN06589A,Patent IN2012DN06589A ,IN,2015-10-23,The present invention provides for engineered molecular opsonins that may be used to bind biological pathogens or identify subclasses or specific pathogen species for use in devices and systems for treatment and diagnosis of patients with infectious diseases blood borne infections or sepsis. An aspect of the invention provides for mannose binding lectin (MBL) which is an abundant natural serum protein that is part of the innate immune system. The ability of this protein lectin to bind to surface molecules on virtually all classes of biopathogens (viruses bacteria fungi protozoans) make engineered forms of MBL extremely useful in diagnosing and treating infectious diseases and sepsis.,C07K14/4726,Lectins,,,Michael Super,"['US9220831B2', 'US8067237B2', 'WO2009102465A2', 'WO2010123594A2', 'DK2526119T3', 'AU2011311904B2', 'GB2502927A', 'US20140220617A1', 'CA2842321C', 'AU2013225823A1', 'DK2838515T3', 'US20130334120A1', 'US20150173883A1', 'EP2976642A4', 'AU2014268603B2', 'EP3022314B1', 'EP3083658B1', 'DE102014206444A1', 'US10682400B2', 'WO2016077067A2', 'EP3250250A4', 'JP7094533B2', 'EP3331549B1', 'WO2017046178A1', 'CN115531609A', 'EP3416679A4', 'EP3458483A1', 'EP3484448A4', 'CN109414710B', 'WO2019064463A1', 'KR102084688B1', 'CN110628624B', 'CN110294810B', 'US20230054472A1', 'WO2021133943A1', 'CN111675825B', 'WO2021252902A1', 'WO2022026800A2', 'US20240199719A1', 'WO2022067006A1', 'US20230416319A1', 'WO2022093935A1', 'WO2022125632A1', 'WO2022151333A1']","['JPS5418198A', 'US4425330A', 'JPS60500548A', 'EP0126772A1', 'JPH0718875B2', 'US5270199A', 'WO1989001519A1', 'MY105227A', 'US5137810A', 'DE4018583A1', 'ATE183884T1', 'GB9020075D0', 'JPH04130274A', 'US5783179A', 'EP0616535B1', 'US5874238A', 'US5405832A', 'US5283238A', 'US6703219B1', 'IT1271486B', 'US5541087A', 'AUPN214095A0', 'BR9708387A', 'ZA973051B', 'US6117977A', 'FR2751229B1', 'US6294170B1', 'IL121191A0', 'JPH11206378A', 'US7049099B2', 'US6528624B1', 'US6429192B1', 'JP5219057B2', 'US6660843B1', 'ES2281341T3', 'AU782496B2', 'US6503761B1', 'WO2001058957A2', 'US6471968B1', 'JP2002165591A', 'US20020146371A1', 'GB0119274D0', 'US6900292B2', 'WO2003054164A2', 'EP1335003A3', 'AU2003219730A1', 'CN1652813A', 'US20030180814A1', 'US7211396B2', 'JP2005523336A', 'US20040018611A1', 'US7629440B2', 'WO2004018698A2', 'DK1539964T3', 'GB2393728A', 'EP1417965A1', 'CA2516403C', 'US20050014932A1', 'DE10325752A1', 'US20060104978A1', 'WO2005063808A1', 'US7276585B2', 'SE0401033D0', 'WO2007001332A2', 'WO2006018428A2', 'ATE536552T1', 'MX2007005107A', 'US20060141547A1', 'US7172906B2', 'US8084275B2', 'AU2006232310B9', 'CN101193651A', 'US20070031819A1', 'EP1879554B2', 'US20070231833A1', 'JP4423394B2', 'TWI333959B', 'US20070184463A1', 'US9220831B2', 'WO2009148566A2', 'US8013120B2', 'US20070269818A1', 'US20090181041A1', 'JP5063616B2', 'WO2007111938A2', 'WO2007111496A1', 'EP1862541A1', 'KR101343034B1', 'US8273310B2', 'US8088596B2', 'WO2009008925A2', 'EP2144930A1', 'US8292083B2', 'BRPI0811857A2', 'CN101687933B', 'CA2698691A1', 'WO2009058285A2', 'WO2009062195A2', 'ES2326109B1', 'US20100266558A1', 'US20110183398A1', 'US20100331240A1', 'JP5586064B2', 'WO2009123347A1', 'CA2722957A1', 'US20100323429A1', 'US8865876B2', 'JP2010122205A', 'US20110159000A1', 'WO2010065765A2', 'CN106243229B', 'US8664366B2', 'JP2012515556A', 'CA2750115A1', 'WO2011084749A1', 'EP2526427A4', 'DK2526119T3', 'EP2665782B1', 'US20140220617A1', 'CA2842321C']","['US9220831B2', 'US8067237B2', 'WO2009102465A2', 'WO2010123594A2', 'DK2526119T3', 'AU2011311904B2', 'GB2502927A', 'US20140220617A1', 'CA2842321C', 'AU2013225823A1', 'DK2838515T3', 'US20130334120A1', 'US20150173883A1', 'EP2976642A4', 'AU2014268603B2', 'EP3022314B1', 'EP3083658B1', 'DE102014206444A1', 'US10682400B2', 'WO2016077067A2', 'EP3250250A4', 'JP7094533B2', 'EP3331549B1', 'WO2017046178A1', 'CN115531609A', 'EP3416679A4', 'EP3458483A1', 'EP3484448A4', 'CN109414710B', 'WO2019064463A1', 'KR102084688B1', 'CN110628624B', 'CN110294810B', 'US20230054472A1', 'WO2021133943A1', 'CN111675825B', 'WO2021252902A1', 'WO2022026800A2', 'US20240199719A1', 'WO2022067006A1', 'US20230416319A1', 'WO2022093935A1', 'WO2022125632A1', 'WO2022151333A1', 'JPS5418198A', 'US4425330A', 'JPS60500548A', 'EP0126772A1', 'JPH0718875B2', 'US5270199A', 'WO1989001519A1', 'MY105227A', 'US5137810A', 'DE4018583A1', 'ATE183884T1', 'GB9020075D0', 'JPH04130274A', 'US5783179A', 'EP0616535B1', 'US5874238A', 'US5405832A', 'US5283238A', 'US6703219B1', 'IT1271486B', 'US5541087A', 'AUPN214095A0', 'BR9708387A', 'ZA973051B', 'US6117977A', 'FR2751229B1', 'US6294170B1', 'IL121191A0', 'JPH11206378A', 'US7049099B2', 'US6528624B1', 'US6429192B1', 'JP5219057B2', 'US6660843B1', 'ES2281341T3', 'AU782496B2', 'US6503761B1', 'WO2001058957A2', 'US6471968B1', 'JP2002165591A', 'US20020146371A1', 'GB0119274D0', 'US6900292B2', 'WO2003054164A2', 'EP1335003A3', 'AU2003219730A1', 'CN1652813A', 'US20030180814A1', 'US7211396B2', 'JP2005523336A', 'US20040018611A1', 'US7629440B2', 'WO2004018698A2', 'DK1539964T3', 'GB2393728A', 'EP1417965A1', 'CA2516403C', 'US20050014932A1', 'DE10325752A1', 'US20060104978A1', 'WO2005063808A1', 'US7276585B2', 'SE0401033D0', 'WO2007001332A2', 'WO2006018428A2', 'ATE536552T1', 'MX2007005107A', 'US20060141547A1', 'US7172906B2', 'US8084275B2', 'AU2006232310B9', 'CN101193651A', 'US20070031819A1', 'EP1879554B2', 'US20070231833A1', 'JP4423394B2', 'TWI333959B', 'US20070184463A1', 'US9220831B2', 'WO2009148566A2', 'US8013120B2', 'US20070269818A1', 'US20090181041A1', 'JP5063616B2', 'WO2007111938A2', 'WO2007111496A1', 'EP1862541A1', 'KR101343034B1', 'US8273310B2', 'US8088596B2', 'WO2009008925A2', 'EP2144930A1', 'US8292083B2', 'BRPI0811857A2', 'CN101687933B', 'CA2698691A1', 'WO2009058285A2', 'WO2009062195A2', 'ES2326109B1', 'US20100266558A1', 'US20110183398A1', 'US20100331240A1', 'JP5586064B2', 'WO2009123347A1', 'CA2722957A1', 'US20100323429A1', 'US8865876B2', 'JP2010122205A', 'US20110159000A1', 'WO2010065765A2', 'CN106243229B', 'US8664366B2', 'JP2012515556A', 'CA2750115A1', 'WO2011084749A1', 'EP2526427A4', 'DK2526119T3', 'EP2665782B1', 'US20140220617A1', 'CA2842321C']","['CN115531609A', 'CN109414710B', 'CN110628624B', 'CN110294810B', 'CN111675825B']","['BR9708387A', 'ZA973051B', 'CN1652813A', 'CN101193651A', 'BRPI0811857A2', 'CN101687933B', 'CN106243229B']","['CN115531609A', 'CN109414710B', 'CN110628624B', 'CN110294810B', 'CN111675825B', 'BR9708387A', 'ZA973051B', 'CN1652813A', 'CN101193651A', 'BRPI0811857A2', 'CN101687933B', 'CN106243229B']"
+IN2014CN02703A,Patent IN2014CN02703A ,IN,2015-07-03,The present application describes uses for and articles of manufacture including Pertuzumab a first in class HER2 dimerization inhibitor. In particular the application describes methods for extending progression free survival in a HER2 positive breast cancer patient population; combining two HER2 antibodies to treat HER2 positive cancer without increasing cardiac toxicity; treating early stage HER2 positive breast cancer; treating HER2 positive cancer by co administering a mixture of Pertuzumab and Trastuzumab from the same intravenous bag; treating HER2 positive metastatic gastric cancer; treating HER2 positive breast cancer with Pertuzumab Trastuzumab and Vinorelbine; treating HER2 positive breast cancer with Pertuzumab Trastuzumab and aromatase inhibitor; and treating low HER3 ovarian primary peritoneal or fallopian tube cancer. It also describes an article of manufacture comprising a vial with Pertuzumab therein and a package insert providing safety and/or efficacy data thereon; a method of making the article of manufacture; and a method of ensuring safe and effective use of Pertuzumab related thereto. In addition the application describes an intravenous (IV) bag containing a stable mixture of Pertuzumab and Trastuzumab suitable for administration to a cancer patient.,A61K31/337,"Heterocyclic compounds having oxygen as the only ring hetero atom, e.g. fungichromin having four-membered rings, e.g. taxol",,,Sreedhara Alavattam,"['JO3000B1', 'EP1850874B1', 'CN103432580A', 'US9901567B2', 'TWI472339B', 'BRPI0812682A2', 'WO2010062171A2', 'DK3056203T3', 'SI2766040T1', 'US9180185B2', 'CA3071678A1', 'EP3010501B1', 'KR102447878B1', 'CN104726462A', 'CN105899237B', 'KR102344354B1', 'TR201810856T4', 'WO2016094341A1', 'WO2016196523A1', 'CN107771076A', 'MA45324A', 'CN110505880A', 'TW201827077A', 'MA56006A', 'CN116531511A', 'KR102267593B1', 'WO2020240417A1', 'KR20220027969A', 'CN114728101B', 'US20230175069A1', 'CN111710425A', 'KR20240119103A']","['US4816567A', 'AU3934085A', 'US5401638A', 'US4968603A', 'US5720937A', 'WO1989006692A1', 'ES2106033T3', 'JP3208427B2', 'US5183884A', 'US6800738B1', 'LU91067I2', 'WO1994004679A1', 'US7018809B1', 'SI2275119T1', 'US6267958B1', 'US6685940B2', 'US7371376B1', 'EP0852951A1', 'SI0950067T1', 'US5994071A', 'ZA9811162B', 'PT1064027E', 'DK1308456T3', 'US6573043B1', 'CA2374085C', 'US6949245B1', 'US20040013667A1', 'ES2282120T3', 'IL146954A0', 'US7041292B1', 'US20030086924A1', 'PL202369B1', 'US6632979B2', 'US7097840B2', 'CN101711868A', 'US6984494B2', 'EP1345968A2', 'ES2401428T3', 'EP2263691B1', 'AU2003265994B2', 'WO2004030621A2', 'JP2006516117A', 'EP1648940B1', 'AU2005232657B2', 'EP2286844A3', 'GT200500155A', 'US20050280299A1', 'SI1771482T1', 'KR20070057839A', 'JO3000B1', 'RU2007114111A', 'CN101115849A', 'US7449184B2', 'CA3054535A1', 'EP1850874B1', 'TW200642695A', 'US20060212956A1', 'JP2006316040A', 'MY157955A', 'PE20070207A1', 'US7700299B2', 'TW200812615A', 'AU2007259171A1', 'KR101155847B1', 'US20080050385A1', 'WO2008031531A1', 'CN103432580A', 'MX2009012838A', 'US9551033B2', 'WO2008154249A2', 'MX338504B', 'WO2009051815A1', 'SI2215117T2', 'TWI472339B', 'US20090203015A1', 'EP2260056A1', 'EP3692988A3', 'BRPI0812682A2', 'AU2009316409A1', 'WO2010136569A1', 'US9345661B2', 'TW201129380A', 'SI2766040T1']","['JO3000B1', 'EP1850874B1', 'CN103432580A', 'US9901567B2', 'TWI472339B', 'BRPI0812682A2', 'WO2010062171A2', 'DK3056203T3', 'SI2766040T1', 'US9180185B2', 'CA3071678A1', 'EP3010501B1', 'KR102447878B1', 'CN104726462A', 'CN105899237B', 'KR102344354B1', 'TR201810856T4', 'WO2016094341A1', 'WO2016196523A1', 'CN107771076A', 'MA45324A', 'CN110505880A', 'TW201827077A', 'MA56006A', 'CN116531511A', 'KR102267593B1', 'WO2020240417A1', 'KR20220027969A', 'CN114728101B', 'US20230175069A1', 'CN111710425A', 'KR20240119103A', 'US4816567A', 'AU3934085A', 'US5401638A', 'US4968603A', 'US5720937A', 'WO1989006692A1', 'ES2106033T3', 'JP3208427B2', 'US5183884A', 'US6800738B1', 'LU91067I2', 'WO1994004679A1', 'US7018809B1', 'SI2275119T1', 'US6267958B1', 'US6685940B2', 'US7371376B1', 'EP0852951A1', 'SI0950067T1', 'US5994071A', 'ZA9811162B', 'PT1064027E', 'DK1308456T3', 'US6573043B1', 'CA2374085C', 'US6949245B1', 'US20040013667A1', 'ES2282120T3', 'IL146954A0', 'US7041292B1', 'US20030086924A1', 'PL202369B1', 'US6632979B2', 'US7097840B2', 'CN101711868A', 'US6984494B2', 'EP1345968A2', 'ES2401428T3', 'EP2263691B1', 'AU2003265994B2', 'WO2004030621A2', 'JP2006516117A', 'EP1648940B1', 'AU2005232657B2', 'EP2286844A3', 'GT200500155A', 'US20050280299A1', 'SI1771482T1', 'KR20070057839A', 'JO3000B1', 'RU2007114111A', 'CN101115849A', 'US7449184B2', 'CA3054535A1', 'EP1850874B1', 'TW200642695A', 'US20060212956A1', 'JP2006316040A', 'MY157955A', 'PE20070207A1', 'US7700299B2', 'TW200812615A', 'AU2007259171A1', 'KR101155847B1', 'US20080050385A1', 'WO2008031531A1', 'CN103432580A', 'MX2009012838A', 'US9551033B2', 'WO2008154249A2', 'MX338504B', 'WO2009051815A1', 'SI2215117T2', 'TWI472339B', 'US20090203015A1', 'EP2260056A1', 'EP3692988A3', 'BRPI0812682A2', 'AU2009316409A1', 'WO2010136569A1', 'US9345661B2', 'TW201129380A', 'SI2766040T1']","['CN103432580A', 'BRPI0812682A2', 'CN104726462A', 'CN105899237B', 'CN107771076A', 'CN110505880A', 'CN116531511A', 'CN114728101B', 'CN111710425A']","['ZA9811162B', 'CN101711868A', 'RU2007114111A', 'CN101115849A', 'CN103432580A', 'BRPI0812682A2']","['CN103432580A', 'BRPI0812682A2', 'CN104726462A', 'CN105899237B', 'CN107771076A', 'CN110505880A', 'CN116531511A', 'CN114728101B', 'CN111710425A', 'ZA9811162B', 'CN101711868A', 'RU2007114111A', 'CN101115849A', 'CN103432580A', 'BRPI0812682A2']"
+IN2014DN09363A,Patent IN2014DN09363A ,IN,2015-07-17,"The invention relates to a method for classification of a sample on the basis of spectral data a method for creating a database and a method for using this database, and corresponding computer program data storage medium and system. The method comprises: a) obtaining at least two sets of first spectra for use as reference spectra, each set comprising spectra of reference samples belonging to the same class; b) determining for each of the reference spectra the value of the same at least one quantity related to a spectral feature; c) associating a probability to different values of the quantity on the basis of the determined values; d) obtaining a spectrum from the sample and determining the value of the same at least one quantity of this spectrum; and e) calculating on the basis of the probabilities and the value of the quantity for the obtained spectrum for each of said at least two classes a probability that the sample belongs to that class.",G06F18/24155,Bayesian classification,,,René Raymond Parchen,"['US9754774B2', 'AU2014382594B2', 'CN106198482B', 'WO2016196125A1', 'WO2016200164A1', 'EP3136270B1', 'WO2017040826A1', 'KR101816400B1', 'WO2018039136A1', 'US10444213B2', 'WO2018080522A1', 'WO2018158399A1', 'FR3065285B1', 'US10804562B2', 'US10810408B2', 'US11656174B2', 'US11009452B2', 'IT201800002353A1', 'JP6951753B2', 'JP7031450B2', 'KR20210151184A', 'JP7362337B2', 'US20210190740A1', 'RU2751434C1', 'CN112255215B', 'CA3200138A1', 'CN112614542B', 'CN113092407B', 'KR102500948B1', 'WO2024008522A1']","['JP4103324B2', 'AU2002241535B2', 'US20030087456A1', 'US20070184455A1', 'EP1789783A1', 'DE102005002672B4', 'US20090012723A1', 'JP2007240326A', 'EP2157599A1', 'JP5649835B2', 'JP5458389B2', 'CA2804857C', 'EP2439536A1']","['US9754774B2', 'AU2014382594B2', 'CN106198482B', 'WO2016196125A1', 'WO2016200164A1', 'EP3136270B1', 'WO2017040826A1', 'KR101816400B1', 'WO2018039136A1', 'US10444213B2', 'WO2018080522A1', 'WO2018158399A1', 'FR3065285B1', 'US10804562B2', 'US10810408B2', 'US11656174B2', 'US11009452B2', 'IT201800002353A1', 'JP6951753B2', 'JP7031450B2', 'KR20210151184A', 'JP7362337B2', 'US20210190740A1', 'RU2751434C1', 'CN112255215B', 'CA3200138A1', 'CN112614542B', 'CN113092407B', 'KR102500948B1', 'WO2024008522A1', 'JP4103324B2', 'AU2002241535B2', 'US20030087456A1', 'US20070184455A1', 'EP1789783A1', 'DE102005002672B4', 'US20090012723A1', 'JP2007240326A', 'EP2157599A1', 'JP5649835B2', 'JP5458389B2', 'CA2804857C', 'EP2439536A1']","['CN106198482B', 'RU2751434C1', 'CN112255215B', 'CN112614542B', 'CN113092407B']",[],"['CN106198482B', 'RU2751434C1', 'CN112255215B', 'CN112614542B', 'CN113092407B']"
+IN2014CN01834A,Patent IN2014CN01834A ,IN,2015-05-29,The present disclosure provides compositions methods kits systems and apparatus that are useful for nucleic acid polymerization. In particular modified polymerases and biologically active fragment thereof are provided that allow for nucleic acid amplification. In one aspect the disclosure relates to modified polymerases useful for nucleic acid sequencing genotyping copy number variation analysis paired end sequencing and other forms of genetic analysis. In some aspects the disclosure relates to modified polymerases useful for the generation of nucleic acid libraries or nucleic acid templates for use in various downstream processes. In some aspects the disclosure relates to the identification of homologous amino acid mutations that can be transferred across classes or families of polymerases to provide novel polymerases with altered catalytic properties. In some aspects the disclosure provides modified polymerases having enhanced catalytic properties as compared to a reference polymerase.,C12N9/1252,"DNA-directed DNA polymerase (2.7.7.7), i.e. DNA replicase",,,Horn Peter Vander,"['CN107326079B', 'US11208636B2', 'US8906660B2', 'SG10201802883UA', 'EP3461910B1', 'EP2895620B1', 'WO2014043143A1', 'US9399766B2', 'EP2909319B1', 'EP3052652B1', 'US10758700B2', 'US10344325B2', 'CN113403293B', 'EP3712261A1', 'US11091745B2', 'US10526588B2', 'EP3356557B1', 'ES2882646T3', 'CN108699540A', 'US10590480B2', 'US10597643B2', 'EP3449011B1', 'WO2017196676A1', 'US11268117B2', 'WO2018054970A2', 'EP3568490B1', 'CN111566223B', 'GB201721053D0', 'CN111684064A', 'CN112899350B', 'CN113383086A', 'US10865441B2', 'WO2020227031A1', 'US11613738B2', 'CN111154739B', 'CN111454926B', 'US11649441B2', 'EP4232569A4', 'TW202330915A']","['US3508111A', 'US5374553A', 'US5466591A', 'US5198543A', 'DE69131321T2', 'EP0517418B1', 'US5614365A', 'US5830714A', 'WO1998023733A2', 'EP0983364B1', 'US7056661B2', 'GB9918150D0', 'US6329178B1', 'WO2001090337A2', 'US6214557B1', 'CN101525660A', 'US20070172866A1', 'GB0022458D0', 'US6768004B2', 'AU2002258997A1', 'US20030180741A1', 'GB0208768D0', 'EP1801213A3', 'US7417133B2', 'US7462475B2', 'US20060223067A1', 'JP4990886B2', 'GB0509508D0', 'US7405281B2', 'CN101365807A', 'JP5457184B2', 'US8349167B2', 'EP2653861B1', 'US8262900B2', 'AU2009251883B2', 'US20100301398A1', 'US20100137143A1', 'US8546128B2', 'WO2010062779A2', 'JP5809059B2', 'US20100255487A1', 'US8673627B2', 'EP2524036B1', 'WO2011106634A2', 'US20110301041A1', 'CN103025870B', 'WO2012097318A2', 'GB201113430D0', 'CN107326079B']","['CN107326079B', 'US11208636B2', 'US8906660B2', 'SG10201802883UA', 'EP3461910B1', 'EP2895620B1', 'WO2014043143A1', 'US9399766B2', 'EP2909319B1', 'EP3052652B1', 'US10758700B2', 'US10344325B2', 'CN113403293B', 'EP3712261A1', 'US11091745B2', 'US10526588B2', 'EP3356557B1', 'ES2882646T3', 'CN108699540A', 'US10590480B2', 'US10597643B2', 'EP3449011B1', 'WO2017196676A1', 'US11268117B2', 'WO2018054970A2', 'EP3568490B1', 'CN111566223B', 'GB201721053D0', 'CN111684064A', 'CN112899350B', 'CN113383086A', 'US10865441B2', 'WO2020227031A1', 'US11613738B2', 'CN111154739B', 'CN111454926B', 'US11649441B2', 'EP4232569A4', 'TW202330915A', 'US3508111A', 'US5374553A', 'US5466591A', 'US5198543A', 'DE69131321T2', 'EP0517418B1', 'US5614365A', 'US5830714A', 'WO1998023733A2', 'EP0983364B1', 'US7056661B2', 'GB9918150D0', 'US6329178B1', 'WO2001090337A2', 'US6214557B1', 'CN101525660A', 'US20070172866A1', 'GB0022458D0', 'US6768004B2', 'AU2002258997A1', 'US20030180741A1', 'GB0208768D0', 'EP1801213A3', 'US7417133B2', 'US7462475B2', 'US20060223067A1', 'JP4990886B2', 'GB0509508D0', 'US7405281B2', 'CN101365807A', 'JP5457184B2', 'US8349167B2', 'EP2653861B1', 'US8262900B2', 'AU2009251883B2', 'US20100301398A1', 'US20100137143A1', 'US8546128B2', 'WO2010062779A2', 'JP5809059B2', 'US20100255487A1', 'US8673627B2', 'EP2524036B1', 'WO2011106634A2', 'US20110301041A1', 'CN103025870B', 'WO2012097318A2', 'GB201113430D0', 'CN107326079B']","['CN107326079B', 'CN113403293B', 'CN108699540A', 'CN111566223B', 'CN111684064A', 'CN112899350B', 'CN113383086A', 'CN111154739B', 'CN111454926B']","['CN101525660A', 'CN101365807A', 'CN103025870B', 'CN107326079B']","['CN107326079B', 'CN113403293B', 'CN108699540A', 'CN111566223B', 'CN111684064A', 'CN112899350B', 'CN113383086A', 'CN111154739B', 'CN111454926B', 'CN101525660A', 'CN101365807A', 'CN103025870B', 'CN107326079B']"
+IN2014CN04154A,Patent IN2014CN04154A ,IN,2015-07-10,Compensation offsets are provided for a set of reconstructed samples of an image. Each sample has a sample value. A method of providing the compensation offsets comprises selecting based on a rate distortion criterion a classification from among a plurality of predetermined classifications. Each predetermined classification has a classification range smaller than a full range of the sample values and is made up of a plurality of classes each defining a range of sample values within the classification range into which class a sample is put if its sample value is within the range of the class concerned. A compensation offset is associated with each class of the selected classification for application to the sample value of each sample of the class.,H04N19/117,"Filters, e.g. for pre-processing or post-processing",,,Edouard Francois,"['KR101529992B1', 'GB201119206D0', 'US9253482B2', 'US9277194B2', 'CN108683910B', 'US9161035B2', 'GB2509707B', 'KR102166335B1', 'US9826240B2', 'JP6174966B2', 'KR20160075705A', 'CN105684409B', 'TWI496456B', 'CN103647975B', 'CN110072106B', 'US9628822B2', 'CN105393537B', 'EP3114841B1', 'JP6338408B2', 'KR102298599B1', 'CN105323588B', 'US10681372B2', 'KR102276854B1', 'MX2017004210A', 'GB2533905A', 'WO2016127271A1', 'JP6454229B2', 'US20170006283A1', 'KR102423880B1', 'KR20180064423A', 'US10728546B2', 'EP3220643A1', 'CN105959731B', 'US10390039B2', 'EP3306922A1', 'US10432972B2', 'US11095877B2', 'EP3550842A4', 'JP7001346B2', 'EP3606077A4', 'CN107360431B', 'CN107707915B', 'WO2019082291A1', 'CN111587576B', 'GB2574423A', 'JP6990627B2', 'KR102312337B1', 'WO2020094153A1', 'GB2580173B', 'CN109862374A', 'CN109859126B', 'EP3935860A1', 'CN110677649B', 'WO2021093801A1', 'US20230024020A1', 'JP2023507259A', 'US11375221B2', 'JP2023521295A', 'CN111698511B', 'US11202085B1', 'US11750816B2', 'TWI764492B', 'CN114764768A', 'CN112862924B', 'CN113099230B', 'CN112819017B', 'CN113068037B', 'CN112752104B', 'KR20240042642A', 'EP4447439A1', 'EP4447438A1']","['EP0223557A3', 'KR0148130B1', 'US5502489A', 'US6519369B1', 'FI117533B', 'JP4156188B2', 'US7450641B2', 'CA2534695C', 'EP1510973A3', 'US7369709B2', 'CN1285214C', 'US7397854B2', 'US7876833B2', 'US8724699B2', 'US7511769B2', 'JP5112300B2', 'JP5020947B2', 'KR100678958B1', 'CN100438629C', 'KR100647402B1', 'US7956930B2', 'RU2406259C2', 'WO2007116551A1', 'US9001899B2', 'US20080080618A1', 'US9277243B2', 'CN100578618C', 'US9445128B2', 'MX2009006404A', 'US8174621B2', 'US8234193B2', 'US8831086B2', 'JP2009290552A', 'KR20090129926A', 'US9571856B2', 'JP5161702B2', 'CN101742290B', 'WO2010092740A1', 'CN101511024A', 'EP2237557A1', 'KR101749269B1', 'US10291938B2', 'JP6029984B2', 'KR101529992B1', 'US8428372B2', 'CN101860753B', 'US9094658B2', 'US8660174B2', 'US9247265B2', 'US9055305B2', 'CN106878729B', 'BR112013011053A2', 'CN106454357A', 'US9161041B2', 'US20120183078A1', 'US9001883B2', 'GB2488830B', 'CN107396129B', 'EP2700230A4', 'US9008170B2', 'WO2012155553A1', 'KR102349348B1', 'WO2012175195A1', 'PL2725797T3', 'CN107426579B', 'MX338669B', 'EP2740272A4', 'US10070152B2', 'US9344743B2', 'US9485521B2', 'KR20130034566A', 'WO2013046990A1', 'US20130083844A1', 'US9357235B2', 'CN103891292B', 'JP2013093792A', 'TWI577191B', 'US10051289B2', 'JP2013138395A', 'GB201119206D0', 'US20130136173A1', 'CN108683910B', 'US9161035B2', 'US9380302B2', 'KR101636269B1', 'TWI625962B']","['KR101529992B1', 'GB201119206D0', 'US9253482B2', 'US9277194B2', 'CN108683910B', 'US9161035B2', 'GB2509707B', 'KR102166335B1', 'US9826240B2', 'JP6174966B2', 'KR20160075705A', 'CN105684409B', 'TWI496456B', 'CN103647975B', 'CN110072106B', 'US9628822B2', 'CN105393537B', 'EP3114841B1', 'JP6338408B2', 'KR102298599B1', 'CN105323588B', 'US10681372B2', 'KR102276854B1', 'MX2017004210A', 'GB2533905A', 'WO2016127271A1', 'JP6454229B2', 'US20170006283A1', 'KR102423880B1', 'KR20180064423A', 'US10728546B2', 'EP3220643A1', 'CN105959731B', 'US10390039B2', 'EP3306922A1', 'US10432972B2', 'US11095877B2', 'EP3550842A4', 'JP7001346B2', 'EP3606077A4', 'CN107360431B', 'CN107707915B', 'WO2019082291A1', 'CN111587576B', 'GB2574423A', 'JP6990627B2', 'KR102312337B1', 'WO2020094153A1', 'GB2580173B', 'CN109862374A', 'CN109859126B', 'EP3935860A1', 'CN110677649B', 'WO2021093801A1', 'US20230024020A1', 'JP2023507259A', 'US11375221B2', 'JP2023521295A', 'CN111698511B', 'US11202085B1', 'US11750816B2', 'TWI764492B', 'CN114764768A', 'CN112862924B', 'CN113099230B', 'CN112819017B', 'CN113068037B', 'CN112752104B', 'KR20240042642A', 'EP4447439A1', 'EP4447438A1', 'EP0223557A3', 'KR0148130B1', 'US5502489A', 'US6519369B1', 'FI117533B', 'JP4156188B2', 'US7450641B2', 'CA2534695C', 'EP1510973A3', 'US7369709B2', 'CN1285214C', 'US7397854B2', 'US7876833B2', 'US8724699B2', 'US7511769B2', 'JP5112300B2', 'JP5020947B2', 'KR100678958B1', 'CN100438629C', 'KR100647402B1', 'US7956930B2', 'RU2406259C2', 'WO2007116551A1', 'US9001899B2', 'US20080080618A1', 'US9277243B2', 'CN100578618C', 'US9445128B2', 'MX2009006404A', 'US8174621B2', 'US8234193B2', 'US8831086B2', 'JP2009290552A', 'KR20090129926A', 'US9571856B2', 'JP5161702B2', 'CN101742290B', 'WO2010092740A1', 'CN101511024A', 'EP2237557A1', 'KR101749269B1', 'US10291938B2', 'JP6029984B2', 'KR101529992B1', 'US8428372B2', 'CN101860753B', 'US9094658B2', 'US8660174B2', 'US9247265B2', 'US9055305B2', 'CN106878729B', 'BR112013011053A2', 'CN106454357A', 'US9161041B2', 'US20120183078A1', 'US9001883B2', 'GB2488830B', 'CN107396129B', 'EP2700230A4', 'US9008170B2', 'WO2012155553A1', 'KR102349348B1', 'WO2012175195A1', 'PL2725797T3', 'CN107426579B', 'MX338669B', 'EP2740272A4', 'US10070152B2', 'US9344743B2', 'US9485521B2', 'KR20130034566A', 'WO2013046990A1', 'US20130083844A1', 'US9357235B2', 'CN103891292B', 'JP2013093792A', 'TWI577191B', 'US10051289B2', 'JP2013138395A', 'GB201119206D0', 'US20130136173A1', 'CN108683910B', 'US9161035B2', 'US9380302B2', 'KR101636269B1', 'TWI625962B']","['CN108683910B', 'CN105684409B', 'CN103647975B', 'CN110072106B', 'CN105393537B', 'CN105323588B', 'CN105959731B', 'CN107360431B', 'CN107707915B', 'CN111587576B', 'CN109862374A', 'CN109859126B', 'CN110677649B', 'CN111698511B', 'CN114764768A', 'CN112862924B', 'CN113099230B', 'CN112819017B', 'CN113068037B', 'CN112752104B']","['CN1285214C', 'CN100438629C', 'RU2406259C2', 'CN100578618C', 'CN101742290B', 'CN101511024A', 'CN101860753B', 'CN106878729B', 'BR112013011053A2', 'CN106454357A', 'CN107396129B', 'CN107426579B', 'CN103891292B', 'CN108683910B']","['CN108683910B', 'CN105684409B', 'CN103647975B', 'CN110072106B', 'CN105393537B', 'CN105323588B', 'CN105959731B', 'CN107360431B', 'CN107707915B', 'CN111587576B', 'CN109862374A', 'CN109859126B', 'CN110677649B', 'CN111698511B', 'CN114764768A', 'CN112862924B', 'CN113099230B', 'CN112819017B', 'CN113068037B', 'CN112752104B', 'CN1285214C', 'CN100438629C', 'RU2406259C2', 'CN100578618C', 'CN101742290B', 'CN101511024A', 'CN101860753B', 'CN106878729B', 'BR112013011053A2', 'CN106454357A', 'CN107396129B', 'CN107426579B', 'CN103891292B', 'CN108683910B']"
+IN2014DN10833A,Patent IN2014DN10833A ,IN,2015-09-04,The invention relates to methods for producing nano cement by modifying Portland cement and also to nano cement compositions. The method for producing nano cement comprises mechanochemically activating dispersed grains of Portland cement in the presence of a polymeric modifier containing a minimum of 60% by weight of sodium naphthalenesulphonate a minimum of 30% by weight of a mineral silicic SiO containing additive and gypsum rock with solid nanoshell capsules with a thickness of 20 100 nm and made from sodium naphthalenesulphonate crosslinked with calcium cations being formed on the grains of Portland cement wherein the mechanochemical activation of Portland cement is combined with grinding the materials to a specific area of 300 900 m/kg and is carried out in a ball mill and the nano cement is produced by the method mentioned with the following ratio of initial components: 30.0 90.0% by weight of Portland cement or Portland cement clinker 0.3 6.0% by weight of gypsum rock 0.6 2.0% by weight of the polymeric modifier mentioned with the silicic additive making up the remainder. The method makes it possible to increase the structural properties of cement to classes 72.5 82.5 to reduce the cost of cement and to radically reduce the specific fuel consumption and emissions of NO SO and CO.,C04B28/04,Portland cements,,,Marsel Yanovich Bickbau,"['US10457846B2', 'CN105645794B', 'US11434404B2', 'US11713407B2', 'US10544345B2', 'US10800959B2', 'US10392549B2', 'US10800960B2', 'US10487253B2', 'US10336930B2', 'CA3054429C', 'US10479920B2', 'US10167420B1', 'AU2018345082B2', 'RU2678749C1', 'US10266742B1', 'US10240411B1', 'US20210363058A1', 'JP7356500B2', 'US10619090B1', 'RU2725559C1', 'US11136487B2', 'US11041347B1', 'EP3909931A1', 'US11084758B1', 'US11254851B2', 'US11466192B2', 'RU203093U1', 'CN118184210B']","['JPS57129850A', 'CN1019099B', 'JP2548558B2', 'RU1658589C', 'RU2029749C1', 'US5478391A', 'RU2058952C1', 'CN1105005A', 'EP0866778A4', 'DE69632832T2', 'JP3423913B2', 'RU2207995C2', 'RU2371402C2']","['US10457846B2', 'CN105645794B', 'US11434404B2', 'US11713407B2', 'US10544345B2', 'US10800959B2', 'US10392549B2', 'US10800960B2', 'US10487253B2', 'US10336930B2', 'CA3054429C', 'US10479920B2', 'US10167420B1', 'AU2018345082B2', 'RU2678749C1', 'US10266742B1', 'US10240411B1', 'US20210363058A1', 'JP7356500B2', 'US10619090B1', 'RU2725559C1', 'US11136487B2', 'US11041347B1', 'EP3909931A1', 'US11084758B1', 'US11254851B2', 'US11466192B2', 'RU203093U1', 'CN118184210B', 'JPS57129850A', 'CN1019099B', 'JP2548558B2', 'RU1658589C', 'RU2029749C1', 'US5478391A', 'RU2058952C1', 'CN1105005A', 'EP0866778A4', 'DE69632832T2', 'JP3423913B2', 'RU2207995C2', 'RU2371402C2']","['CN105645794B', 'RU2678749C1', 'RU2725559C1', 'RU203093U1', 'CN118184210B']","['CN1019099B', 'RU1658589C', 'RU2029749C1', 'RU2058952C1', 'CN1105005A', 'RU2207995C2', 'RU2371402C2']","['CN105645794B', 'RU2678749C1', 'RU2725559C1', 'RU203093U1', 'CN118184210B', 'CN1019099B', 'RU1658589C', 'RU2029749C1', 'RU2058952C1', 'CN1105005A', 'RU2207995C2', 'RU2371402C2']"
+IN2013DE03360A,Patent IN2013DE03360A ,IN,2015-05-22,"ABSTRACT FILTERING ON CLASSES AND PARTICULARS OF A PACKET DESTINATION ADDRESS AT LOWER-PROTOCOL LAYERS IN A NETWORKED DEVICE In one embodiment, a lower protocol layer in a network device filters packets based on a class and a particular of a destination address prior to sending information from the received packet to a higher protocol layer. For example, certain constrained networks include network nodes that do not have the ability to maintain a multicast distribution entry for each multicast address used in the network. By only forwarding on a portion of a multicast address, packets are often delivered to nodes in addition to the actual multicast subscribers. By filtering these incorrectly delivered packets at a lower protocol layer (e.g., layer-2 or layer-3), processing cycles at higher protocol layers are avoided. Additionally in one embodiment, class and particulars are deterministically determined (e.g., using a same hashing function) such that services can be discovered and used by subscribing to a corresponding multicast group.",H04L12/1886,"Arrangements for providing special services to substations for broadcast or conference, e.g. multicast with traffic restrictions for efficiency improvement, e.g. involving subnets or subdomains",,,Thubert Pascal,"['US9344373B2', 'CN107733803B', 'FR3069400B1', 'US11349807B2', 'US11394567B2']","['US5970069A', 'US7185081B1', 'US6591304B1', 'US7257095B2', 'US20070008967A1', 'US7733891B2', 'US20070083924A1', 'US8228798B2', 'GB2447635A', 'EP2134029A1', 'CN102045882B', 'CN102055753B']","['US9344373B2', 'CN107733803B', 'FR3069400B1', 'US11349807B2', 'US11394567B2', 'US5970069A', 'US7185081B1', 'US6591304B1', 'US7257095B2', 'US20070008967A1', 'US7733891B2', 'US20070083924A1', 'US8228798B2', 'GB2447635A', 'EP2134029A1', 'CN102045882B', 'CN102055753B']",['CN107733803B'],"['CN102045882B', 'CN102055753B']","['CN107733803B', 'CN102045882B', 'CN102055753B']"
+IN2013CH00359A,Patent IN2013CH00359A ,IN,2015-08-07,"The present invention provides a method and apparatus for classifying cardiac arrhythmia using an auto associative neural network. in an embodiment, the method includes receiving an electrocardiogram (ECG) signal representing an electrical activity of a heart of an individual over a period of time, wherein the ECG signal comprising ECG beats. The method further includes generating synthetic beats corresponding to each of the ECG beats using an auto associative neural network (AANN) corresponding to each of arrhythmia classes, wherein each of the arrhythmia classes corresponds to a specific type of cardiac arrhythmia. Further, the method includes determining a synthetic beat corresponding to one of the arrhythmia classes among the synthetic beats as substantially matching the respective ECG beat. Furthermore, the method includes providing the arrhythmia class corresponding to the specific type of cardiac arrhythmia based on the identified synthetic beat substantially matching the ECG beat. Figure 2",A61B5/7232,"Signal processing specially adapted for physiological signals or for diagnostic purposes involving compression of the physiological signal, e.g. to extend the signal recording period",,,Sandipan Chakroborty,"['US10430440B2', 'US10783193B2', 'CN116077042A', 'US20180146929A1', 'KR102501838B1']",['US7894893B2'],"['US10430440B2', 'US10783193B2', 'CN116077042A', 'US20180146929A1', 'KR102501838B1', 'US7894893B2']",['CN116077042A'],[],['CN116077042A']
+IN2013MU03161A,Patent IN2013MU03161A ,IN,2015-07-03,"Accordingly it is a principle object of the present invention to overcome the disadvantages and limitations of prior art methods and systems and provide a method and system for product value discovery and trading the same as exchange traded products, constituted in accordance with the principles of the present invention which will be a regularity structure, wherein Paired / Split mutual fund units may be created out of the same structure which is open ended. It is yet another object of the present invention to provide simultaneous issuance / redemption of all classes of units / shares for payoff.",G06F3/018,Input/output arrangements for oriental characters,,,Deshmukh Rakesh,['KR20200113522A'],"['US5432948A', 'RU2146066C1', 'US7369986B2', 'US7822596B2', 'US20070255554A1', 'US7885807B2', 'US9262409B2', 'US8707170B2', 'JP5642809B2', 'KR101892208B1']","['KR20200113522A', 'US5432948A', 'RU2146066C1', 'US7369986B2', 'US7822596B2', 'US20070255554A1', 'US7885807B2', 'US9262409B2', 'US8707170B2', 'JP5642809B2', 'KR101892208B1']",[],['RU2146066C1'],['RU2146066C1']
+IN2015MU01794A,Patent IN2015MU01794A ,IN,2015-06-19,"The present invention addresses the methods and systems for multi class classifier which is capable to classify the given single object as member of one or multiple classes at same point of time. Multi class classifier having single output unit and multiple output units are also addressed in details in the present invention. To train and test such multi class classifiers, collection of multi class records where each record is a member of multiple classes is required. Under the un-availability of such multi class records, the present invention is capable to generate such multi class record from single class records. Further, present invention is also applied to generate multi class record from preexisting multi class records, generated multi class records or any combination of preexisting single class, preexisting multi class and generated multi class records.",G06F18/2431,Multiple classes,,,Manharlal Shah Bhavin,"['CN106295666B', 'CN113826116A', 'US12106225B2']","['US7769228B2', 'US8924313B2']","['CN106295666B', 'CN113826116A', 'US12106225B2', 'US7769228B2', 'US8924313B2']","['CN106295666B', 'CN113826116A']",[],"['CN106295666B', 'CN113826116A']"
+IN2013MN01218A,Patent IN2013MN01218A ,IN,2015-06-12,The invention can be used in medicine and veterinary science for designing (creating and synthesizing) therapeutic and preventive drugs which are effective in the treatment of cancerous and viral diseases in humans and animals as well as for designing new drugs. The novel method for designing and synthesizing therapeutic and preventive drugs is characterized in that a target biopolymer (protein DNA RNA or a combination thereof) is identified and subsequently used as a ligand having been cleaved into oligomer fragments (by nucleases synthetic nucleases and proteases) which are modified by replacing the charge thereof with an opposite charge (by acylation with dicarboxylic acid anhydrides or alkylation with halogen carboxylic acids); the same target biopolymer is also used as a ligand having been modified by the partial replacement of the charge of the molecule with an opposite charge to form a supramolecular ensemble of biopolymers. A supramolecular ensemble of oligomers is used wherein the oligomers are products of the hydrolysis of biopolymers and the charge of the oligomer molecules is replaced with an opposite charge or in the case of the whole biopolymers is partially altered. By using this method it is possible to significantly reduce the costs of designing and synthesizing new drugs broaden the spectrum of action of existing genetically engineered protein drugs and create new classes of dynamic therapeutic and preventive drugs that self adapt to an organism and a target.,C07K1/00,"General methods for the preparation of peptides, i.e. processes for the organic chemical preparation of peptides or proteins of any length",,,Boris Slavinovich Farber,"['EP2527142A1', 'US20140220556A1', 'RU2646885C1', 'US11191806B2']","['US5495423A', 'AUPN741696A0', 'US5854992A', 'EP1025521B1', 'US7396919B1', 'US20030088366A1', 'US20040167090A1', 'US7365058B2']","['EP2527142A1', 'US20140220556A1', 'RU2646885C1', 'US11191806B2', 'US5495423A', 'AUPN741696A0', 'US5854992A', 'EP1025521B1', 'US7396919B1', 'US20030088366A1', 'US20040167090A1', 'US7365058B2']",['RU2646885C1'],[],['RU2646885C1']
+IN2014DN07726A,Patent IN2014DN07726A ,IN,2015-05-15,Vector Quantizer and method therein for efficient vector quantization e.g. in a transform audio codec. The method comprises comparing an input target vector s with a plurality of centroids each centroid representing a respective class of codevectors in a codebook. Further a starting point for a search related to the input target vector in the codebook is determined based on the result of the comparison.The codevectors in the codebook are sorted according to a distortion measure reflecting the distance between each codevector and the centroids of the classes. The Vector Quantizer and method enables that the class of codevectors comprising the most probable candidate codevectors in regard of the input vector. s may be searched first.,G10L19/038,"Vector quantisation, e.g. TwinVQ audio",,,Volodya Grancharov,"['TR201911121T4', 'JP6170575B2', 'US11710492B2', 'CN111798532B']","['JPS63217878A', 'US5195168A', 'GB2282943B', 'US5664055A', 'US5819213A', 'JP3335841B2', 'DE69712537T2', 'KR100527217B1', 'US6148283A', 'US7643996B1', 'US6782360B1', 'US7167828B2', 'US7171355B1', 'KR100910282B1', 'US7610198B2', 'CA2388358A1', 'US7337110B2', 'CA2415105A1', 'BRPI0607646B1', 'US7587314B2', 'US8340450B2', 'US20070129946A1', 'CN101467459B', 'CN101198041B', 'US8050919B2', 'CN101335558B', 'US8438020B2', 'US8762141B2', 'EP2304722B1', 'US20100174539A1', 'RU2519027C2', 'US8581757B2', 'RU2435214C2', 'CN102436815B', 'HUE033069T2', 'RU2725416C1', 'TR201911121T4', 'ES2716756T3', 'EP3624347B1']","['TR201911121T4', 'JP6170575B2', 'US11710492B2', 'CN111798532B', 'JPS63217878A', 'US5195168A', 'GB2282943B', 'US5664055A', 'US5819213A', 'JP3335841B2', 'DE69712537T2', 'KR100527217B1', 'US6148283A', 'US7643996B1', 'US6782360B1', 'US7167828B2', 'US7171355B1', 'KR100910282B1', 'US7610198B2', 'CA2388358A1', 'US7337110B2', 'CA2415105A1', 'BRPI0607646B1', 'US7587314B2', 'US8340450B2', 'US20070129946A1', 'CN101467459B', 'CN101198041B', 'US8050919B2', 'CN101335558B', 'US8438020B2', 'US8762141B2', 'EP2304722B1', 'US20100174539A1', 'RU2519027C2', 'US8581757B2', 'RU2435214C2', 'CN102436815B', 'HUE033069T2', 'RU2725416C1', 'TR201911121T4', 'ES2716756T3', 'EP3624347B1']",['CN111798532B'],"['BRPI0607646B1', 'CN101467459B', 'CN101198041B', 'CN101335558B', 'RU2519027C2', 'RU2435214C2', 'CN102436815B', 'RU2725416C1']","['CN111798532B', 'BRPI0607646B1', 'CN101467459B', 'CN101198041B', 'CN101335558B', 'RU2519027C2', 'RU2435214C2', 'CN102436815B', 'RU2725416C1']"
+IN2013CH04820A,Patent IN2013CH04820A ,IN,2015-05-08,"A method and system for detecting and classifying cardiac arrhythmias from the ECG signal source is disclosed. The method classifies arrhythmia in two stages, a coarse classification stage and a fine classification stage. The one or more input ECG beats obtained from the processed ECG signal. The input ECG beat is decimated and reference ECG beats from plurality of trained databases are decimated and compressed before classifying in coarse classification stage. The plurality of databases corresponds to a different number of arrhythmia classes. The coarse classification stage identifies one or more surviving classes upon calculating the distance between input ECG beat and reference ECG beats and the identified one or more surviving classes are forwarded to the fine classification stage for further accurate classification and thereby identifying one or more output classes corresponding to input ECG beat. FIG. 1",,,,,Chakroborty Sandipan,[],[],[],[],[],[]
+IN2014MU00206A,Patent IN2014MU00206A ,IN,2015-08-28,The classroom seating arrangement (1) comprises one or more rows of a plurality of pairs of integrated bench and desk combinations (2) detachably connected to one another. Each row further comprises a complementary modular desk (5) disposed in front of the modular bench of the integrated bench and desk combination at the front end of the row and detachably connected to the integrated bench and desk combination at the front end of the row. A complementary modular bench (6) is disposed behind the integrated bench and desk combination at the back end of the row and is detachably connected to the integrated bench and desk combination at the back end of the row (Fig 1).,,,,,Lalitesh Sharad Mandrekar,[],[],[],[],[],[]
+IN165987B,Patent IN165987B ,IN,1990-02-17,"Apparatus for classifying particulate material on a particle by particle basis according to the extent to which the particles possess certain attributes, such as the presence of particular colors when viewed from different directions. A particle feeder (12) feeds particles past an inspection system (13) which inspects each particle and derives signals which are a measure of a plurality of attributes of the particle. A separation or airblast mechanism (14) operates to direct particles to multiple outlets (15) according to the signals derived by the inspection system (13). This operation is controlled by a signal processor which can store a plurality of sets of specific values of attributes each set of which is typical of one of a plurality of particular classes into which the particulate material is to be classified and can compare subsequently measured sets of values of attributes of successive particles with the stored sets to determine a closest match with one of the particular classes.",B07C5/3425,"Sorting according to other particular properties according to optical properties, e.g. colour of granular material, e.g. ore particles, grain",,,Albert Peter Hawkins,"['US5158181A', 'GB8531396D0', 'US5184732A', 'US5206699A', 'GB8823570D0', 'JPH02251284A', 'DE3911112A1', 'DE68926537T2', 'US5124935A', 'US5335293A', 'US5396260A', 'EP0604875B1', 'US20040176874A1', 'US5703784A', 'US5966673A', 'DE19709714A1', 'US6020954A', 'US6980283B1', 'US20030127365A1', 'US6473164B1', 'US7260544B1', 'KR100350855B1', 'CA2480937C', 'US7041926B1', 'AU2003245326A1', 'US7351929B2', 'US8436268B1', 'US7355140B1', 'US20050004824A1', 'DE202004008214U1', 'US9262284B2', 'US20100230330A1', 'CN102596433B', 'CH702891B1', 'EP2720810A4', 'US20150041483A1', 'GB2504052B', 'GB2500259A', 'US9114431B1', 'WO2015183947A1', 'JP1605315S', 'JP1621637S']","['US2054319A', 'US2054320A', 'US1945395A', 'US2131095A', 'US2131096A', 'US2152758A', 'US2244826A', 'US2325665A', 'US2474230A', 'US3060790A', 'US3058588A', 'FR1255469A', 'US3385434A', 'US3380586A', 'US3366236A', 'US3565249A', 'US3878384A', 'US3747755A', 'US4057146A', 'US4143770A', 'ZA765149B', 'US4154672A', 'US4280625A', 'US4278538A', 'GB2081439B', 'DE3174515D1', 'US4454029A', 'JPS58214381A', 'US4515275A', 'SU1097387A1', 'GB2133531B', 'EP0118857A1', 'GB2142426B', 'JPS60137477A', 'JPS60178322A', 'GB8425273D0', 'GB8425274D0']","['US5158181A', 'GB8531396D0', 'US5184732A', 'US5206699A', 'GB8823570D0', 'JPH02251284A', 'DE3911112A1', 'DE68926537T2', 'US5124935A', 'US5335293A', 'US5396260A', 'EP0604875B1', 'US20040176874A1', 'US5703784A', 'US5966673A', 'DE19709714A1', 'US6020954A', 'US6980283B1', 'US20030127365A1', 'US6473164B1', 'US7260544B1', 'KR100350855B1', 'CA2480937C', 'US7041926B1', 'AU2003245326A1', 'US7351929B2', 'US8436268B1', 'US7355140B1', 'US20050004824A1', 'DE202004008214U1', 'US9262284B2', 'US20100230330A1', 'CN102596433B', 'CH702891B1', 'EP2720810A4', 'US20150041483A1', 'GB2504052B', 'GB2500259A', 'US9114431B1', 'WO2015183947A1', 'JP1605315S', 'JP1621637S', 'US2054319A', 'US2054320A', 'US1945395A', 'US2131095A', 'US2131096A', 'US2152758A', 'US2244826A', 'US2325665A', 'US2474230A', 'US3060790A', 'US3058588A', 'FR1255469A', 'US3385434A', 'US3380586A', 'US3366236A', 'US3565249A', 'US3878384A', 'US3747755A', 'US4057146A', 'US4143770A', 'ZA765149B', 'US4154672A', 'US4280625A', 'US4278538A', 'GB2081439B', 'DE3174515D1', 'US4454029A', 'JPS58214381A', 'US4515275A', 'SU1097387A1', 'GB2133531B', 'EP0118857A1', 'GB2142426B', 'JPS60137477A', 'JPS60178322A', 'GB8425273D0', 'GB8425274D0']",['CN102596433B'],['ZA765149B'],"['CN102596433B', 'ZA765149B']"
+IN2015MU01893A,Patent IN2015MU01893A ,IN,2015-05-22,In this invention we propose a method of compression by reducing entropy of data .A multi level compression method is proposed by using commands .Subsequently a new method to achieve compression using the entropy by division of data into classes & using commands is being proposed for both long & short data ;the analysis for which is in the description. This method is exclusively helpful for short messages.,,,,,N Sarvaiya Jignesh,[],[],[],[],[],[]
+IN2012MU03161A,Patent IN2012MU03161A ,IN,2015-04-24,"Accordingly it is a principle object of the present invention to overcome the disadvantages and limitations of prior art methods and systems and provide a method and system for product value discovery and trading the same as exchange traded products, constituted in accordance with the principles of the present invention which will be a regularity structure, wherein Paired / Split mutual fund units may be created out of the same structure which is open ended. It is yet another object of the present invention to provide simultaneous issuance / redemption of all classes of units / shares for payoff.",,,,,Deshmukh Riteish,[],[],[],[],[],[]
+IN2013DE00989A,Patent IN2013DE00989A ,IN,2015-07-10,"The invention pertains to an IT-based system for facilitating knowledge enhancement of students by creating a pervasive learning environment through in-campus and off-campus interventions. High quality content inputs are provided through automated web-based mashup tools and human domain experts to a cloud-based knowledge management system, which distributes domain-specific content streams to designated knowledge servers catering to a particular institution. The content streams are specific to an institution and subscribed to by an institution based on the academic programmes it offers. These content streams are then distributed locally within the campus to electronic display boards which are connected wirelessly to the knowledge server. The content stream is visible to the student pervasively throughout the campus promoting sub-conscious learning and enhancement in knowledge without active participation. Content streams are also posted in a personalized manner to the various social networking platforms used by the target audience so that knowledge can be delivered pervasively beyond the classrooms.",,,,,Ankur Gupta,[],[],[],[],[],[]
+IN2015MU02493A,Patent IN2015MU02493A ,IN,2015-08-07,"Today there is a need for classes of efficient compression and transmission methodology, hardware and languages' for an application which deals great efforts in a short time. The requirement of neurologist is accurate, minute details, meaningful and timely information of EEG data. For this purpose the PMS should get the data which is more accurate, error free and support to the time. Hence there is a need for an efficient compression system and transmission media, which could play a vital role for PMS. The compression of Electroencephalographic (EEG) signal is of great interest to many in the biomedical community. The motivation for this research is the large amount of low amplitude data involved in collecting EEG information which requires storage space and high bandwidth for transmission. Efficient compression and transmission of the EEG signal is a difficult task due to the unpredictability in the signal and also signal is having very low amplitude. Thus with various relevant data compression and transmission for EEG signal could be the great research This invention introduces the idea of new compression techniques for Patient monitoring system between different health services for an EEG data. The proposed algorithms of compression methodologies consist of different constructive modules. The algorithms are applied on EEG database and different parameter metrics like compress ratio (CR), percent root mean square difference (PRD), percent root mean square difference normalized (PRDN), Signal to noise ratio (SNR) were obtained.",,,,,D Raut Dr Rajeshree,[],[],[],[],[],[]
+IN2015MU00743A,Patent IN2015MU00743A ,IN,2015-04-10,"ABSTRACT The transportation network in fact governs the development of any urban area through its activity clusters. The representative sample layouts have been selected and their location and other characteristics have been studied from High Resolution Satellite data. Micro level analysis was performed on these samples and number of parameters affecting road network service quality were identified and worked out. The interaction of these parameters with transportation system and their impacts on transportation system and vice versa are analyzed. Results provide an understanding on road network service quality index and the planning of the transportation network in the further developing areas and also reorganization of the activity clusters. From the present study based on selection of 8 sample layouts spread in different Land Use classes of built up areas within Nagpur Urban area, the Cumulative Road Network Service Quality Index have been proposed. These CRNSQI values are derived completely from satellite data hence presents ease of its generation and analysis. Following invention is described in detail with the help of figure 4 of sheet 3 showing cumulative weights indicating level of serviceability of roads within urban layouts within Nagpur municipal boundary.",,,,,Bhaskar Katpatal Dr Yashwant,[],[],[],[],[],[]
+IN2013MU03390A,Patent IN2013MU03390A ,IN,2015-07-17,"The present invention relates to novel tablet dosage forms, which can be used for different classes of pharmaceutical active ingredients posing stability issues in a single unit system. The dosage form includes a first layer that includes a tablet of one or more active pharmaceutical ingredients, which is inlayed in the first layer along with other pharmaceutically acceptable excipients, and a second layer that includes one or more active pharmaceutical ingredients optionally with other pharmaceutically acceptable excipients.",,,,,Girish Kumar Jain,[],[],[],[],[],[]
+IN2015DN00243A,Patent IN2015DN00243A ,IN,2015-06-12,"The invention relates to an advanced device for welding training based on augmented reality simulation which can be updated remotely and which allows simulation of all types of industrial welding i.e. coated electrode (SMAW), MIG/MAG (GMAW,FCAW) and TIG (GTAW), all types of materials and all types of existing joints in all welding positions (1F to 4F, 1G to 6G,6GR) providing a very exact simulation of the behaviour of a real welding machine through the use of augmented reality technology which allows interaction between different elements in multiple layers all of which is implemented on a system for checking monitoring and evaluating students which allows the teacher to test the student in real time without the teacher being present in the training room including from a remote station.",G09B9/00,Simulators for teaching or training purposes,,,Barrera Juan José Chica,"['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1']","['US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1', 'US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B']","['CN101833892A', 'CN104704535A']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B', 'CN101833892A', 'CN104704535A']"
+IN2015CH04082A,Patent IN2015CH04082A ,IN,2015-09-25,"Learning is a two step process. So, as much as theoretical knowledge is important, knowledge about the practical implementation is also emphasized upon. And a very good example of this can be seen in the curriculum of the bachelor's degree program of our education system. Every student has to do at least one project either from their respective institutions or in collaboration with some external organization. Also, every student is assigned an internal project guide who supervises the project. A project is not a one man job. So, every project consists of at least two members, supervised by the same internal guide. Now, if these students do their project from an external organization, then balancing between the institution and the organization becomes hectic. This is where Project Feedback Management System comes into play. We have devised an automated web based application to facilitate the communication and feedback about the project between the students, and their respective internal guides. Our system has different functionalities which facilitates the interaction between the students and their internal guides. It provides different functionalities based on the type of user logged in. If the logged user is an internal guide, functionalities such as logging of a feedback, reviewing of a particular task, etc. At the same time if the logged user is a student, the functionalities are restricted to just viewing the task and clarifying their doubts.",,,,,Kumar Abhineet,[],[],[],[],[],[]
+IN2013MU03749A,Patent IN2013MU03749A ,IN,2015-07-31,"A system or scheme for reducing weight of school bag of students, said system is about rearranging the contents of books used by the students; in the said system it is proposed that the chapters of the books should not be arranged subject wise. It is proposed that the all the chapters from all the books of the standard syllabus should be divided in sections. One particular section should contained chapters from all subjects. For example if a student has to study four subjects with 12 chapters in each subject, it is proposed that there can be four sections. In each section three chapters of each book can be placed. Similarly the notebooks can also be rearranged. The notebooks can be prepared according to requirement in desired number of section. Each section of notebook contains required pages for particular subjects. In this case student has to carry only one section of books and one section of notebook to school. In case those chapters of particular subjects are finished and chapters of another particular subjects are unfinished student has to carry maximum two section of books and two section of notebooks. This will reduce the load to be carried to school and thereby will reduce the weight of schoolbag by 75 to 50 %.",,,,,Tiwari Harish,[],[],[],[],[],[]
+IN2015KO00749A,Patent IN2015KO00749A ,IN,2015-08-07,"The present invention relates to a smart interactive teaching aid having customized teaching information useful for improved learning capability. More specifically, the device helps the student in real-time scenarios by review, practice exams, educational games and other related activities that will automatically be recorded in the device for further preview. Further, the invention provides more interactive learning rather than routine knowledge dissemination using a smart & advanced interactive learning device.",,,,,Pani Dr Prajna,[],[],[],[],[],[]
+IN2013CH05238A,Patent IN2013CH05238A ,IN,2015-08-07,MASTER OF SHOPPING brings all the shopping websites in a single application. MASTER OF SHOPPING more than hundreds of products can be sold and bought using the same application with a range of products. MASTER OF SHOPPING is an easy friendly application for placing of product and selling them.,,,,,A Pradeep Student K,[],[],[],[],[],[]
+IN2012DE01109A,Patent IN2012DE01109A ,IN,2015-09-25,"The present invention is a software which aims at online hostel room allotment along with virtual tour of the specific hostel. Earlier the hostel room were allotted manually by institute authorities where students had to stand in long queues and wait for their turn which was quiet mundane and time consuming process. Now, with this novel software, students need not waste their precious time and rather the hostel room allotment can be accomplished more reliably and authentically by considering all possible allotment criteria. Students can sit at their home or any workplace and can submit their room choices as per their requirements. The provision of virtual tour helps them to get a look and feel of the hostel which will be allotted to them. This software and algorithm is indigenously developed by students of National Institute of Technology, Hamirpur.",,,,,Lakhotia Raghav,[],[],[],[],[],[]
+IN2015CH03743A,Patent IN2015CH03743A ,IN,2015-07-31,"This invention relates to the field of Information and Communication Technology. Aprocess and method where the status of each class like lecturer name, room number, topic covered, time when attendance taken, students absent etc be made available @ real-time (period wise) to all the stakeholders in the education space (viz, Principal, Staff, Students and Parents) either on their mobile phones or web or on any display screen. We call this as a 'Real-Time Campus Dashboard'. Our goal is to leverage mobile technology to bring in the much needed transparency and accountability in the education space to improve the quality of life.",,,,,S Talya Vidyadhara,[],[],[],[],[],[]
+IN2013DE00989A,Patent IN2013DE00989A ,IN,2015-07-10,"The invention pertains to an IT-based system for facilitating knowledge enhancement of students by creating a pervasive learning environment through in-campus and off-campus interventions. High quality content inputs are provided through automated web-based mashup tools and human domain experts to a cloud-based knowledge management system, which distributes domain-specific content streams to designated knowledge servers catering to a particular institution. The content streams are specific to an institution and subscribed to by an institution based on the academic programmes it offers. These content streams are then distributed locally within the campus to electronic display boards which are connected wirelessly to the knowledge server. The content stream is visible to the student pervasively throughout the campus promoting sub-conscious learning and enhancement in knowledge without active participation. Content streams are also posted in a personalized manner to the various social networking platforms used by the target audience so that knowledge can be delivered pervasively beyond the classrooms.",,,,,Ankur Gupta,[],[],[],[],[],[]
+IN2015MU02494A,Patent IN2015MU02494A ,IN,2015-07-17,"Induction motors account half of the electric power consumed across the world. They are very important component of industry. Although, these electromechanical devices are highly reliable, they are susceptible to many types of faults. It is therefore necessary to design suitable motor protection panel for protection of motor. Loss of motor means loss of production of goods, which in turn causes financial losses. The faults can be minimized by improving the system design, reducing the number of faults, improving the quality of protection system and employing a reliable protection system. However the faults cannot be eliminated completely by obsolete protective devices therefore there is an urgent need of reliable and automatic fault clearing system. The main motivation behind the project was to prepare automatic motor protection panel with minimum cost, as the panels which are present in industries are very costly and do not include all major faults in single panel. Beside industrial use the panel can be used to give hands on experience on the industrial equipment's to engineering students, as virtual fault clearing system has also been included in the motor protection panel. The designed motor protection panel has employed multifunction meter which measures several electrical quantities which facilitates the performance of several practicals based on induction motor protection faults for the demonstrations to the engineering students.)",,,,,K Dhote Nitin,[],[],[],[],[],[]
+IN2015MU02903A,Patent IN2015MU02903A ,IN,2015-08-07,"A system for measurement of angles with ease and also accurately as well as for checking the correctness of angles, the said system uses an angle sensor, the line tracer sensor and the pointer, the said angle sensor senses the angle and displays the angle in the display in digital form, the said line tracer sensor will sense the line and will glow the Green LED which indicates the measured value is correct otherwise will glow Red LED simultaneously the angle will be displayed on the display, the said pointer plots the point after required angle is achieved, the said systems are connected to a small portable battery, this system is beneficial for all those where the measurement of angle is required especially for engineers, architects and also for school and college level students.",,,,,Aatish Atul Prabhune Mr,[],[],[],[],[],[]
+IN2015MU01614A,Patent IN2015MU01614A ,IN,2015-05-08,"A system which is a modified version of the paper sheet perforator (commonly known as 'paper punching machine') also attached with a stapler. The conventional paper sheet perforator is reduced in size such that there is a provision for one punching hole instead of the conventional two punching hole. The assembly of the paper sheet perforator and the stapler is held together with the help of one long bolt which is 30 to 35mm. The entire assembly is of 45 to 55mm length and nearly 50 mm width. The sheet of paper that is to be punched is first folded (to obtain proper alignment) then inserted through the gap in the perforator. The result is that there are two holes on the sheet of paper by a single punch. The die plate (base plate) also has the provision for bending the staple pins and holding the plastic reservoir. The stapler that is attached is a medium sized stapler that is available in the market for a nominal cost. The base part of the stapler that does the bending of pins is incorporated within the base part of the device. So the working of two devices is done by a single apparatus. The main objective of this invention is to provide the benefits of two daily used devices into one. There is also a considerable reduction in space and material. This system can be used anywhere by students, clerks, office workers or anyone who use staplers and perforators for daily use. The system is reliable and works like the conventional devices.",,,,,Mohit Daudayal Agrawal,[],[],[],[],[],[]
+IN2012DN05158A,Patent IN2012DN05158A ,IN,2015-10-23,"Methods of selling endowment policies and funding an education are provided. In a general embodiment, the method includes selling a first endowment policy to an individual, allowing the individual to purchase additional endowment policies at the same price as the first endowment policy, and reminding the individual using an automatic computer generated reminder of the right to purchase additional endowment policies. The endowment policies can be used to fund an education.",B32B5/12,"Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by structural features of a fibrous or filamentary layer characterised by the relative arrangement of fibres or filaments of different layers, e.g. the fibres or filaments being parallel or perpendicular to each other",,,Koen Van Putten,"['BR112015022447A8', 'JP6676534B2', 'ES2861159T3', 'WO2018122120A1', 'US11040521B2', 'US11541636B2', 'KR101875393B1', 'ES1219654Y', 'US11530513B2', 'CN111469495A', 'CN112549711A', 'EP4219160A4']","['NL177840C', 'NL177759B', 'US4623574A', 'EP0205960B1', 'CA2075211A1', 'NL9100279A', 'DE4128024A1', 'BE1007230A3', 'JP2007520371A', 'IL224437A', 'US7687412B2', 'TR201900184T4', 'WO2007122010A2', 'CN101178295A', 'KR20090094851A', 'US8969221B2', 'US8017529B1', 'US7976932B1', 'WO2009121902A1', 'BRPI0911852A2', 'US9623626B2']","['BR112015022447A8', 'JP6676534B2', 'ES2861159T3', 'WO2018122120A1', 'US11040521B2', 'US11541636B2', 'KR101875393B1', 'ES1219654Y', 'US11530513B2', 'CN111469495A', 'CN112549711A', 'EP4219160A4', 'NL177840C', 'NL177759B', 'US4623574A', 'EP0205960B1', 'CA2075211A1', 'NL9100279A', 'DE4128024A1', 'BE1007230A3', 'JP2007520371A', 'IL224437A', 'US7687412B2', 'TR201900184T4', 'WO2007122010A2', 'CN101178295A', 'KR20090094851A', 'US8969221B2', 'US8017529B1', 'US7976932B1', 'WO2009121902A1', 'BRPI0911852A2', 'US9623626B2']","['BR112015022447A8', 'CN111469495A', 'CN112549711A']","['CN101178295A', 'BRPI0911852A2']","['BR112015022447A8', 'CN111469495A', 'CN112549711A', 'CN101178295A', 'BRPI0911852A2']"
+IN2014DN10395A,Patent IN2014DN10395A ,IN,2015-08-14,Computer based educational systems methods and media for a child aged about 1 to about 10 years comprising: an educational environment comprising: at least three subjects appropriate for the child wherein each subject comprises a plurality of levels of learning; a plurality of learning activities associated with each subject; wherein the plurality of learning activities teaches toward one or more educational objectives in a subject and is substantially free of activities not teaching toward one or more educational objectives in a subject; a module for creating an avatar to represent the child; and a module for monitoring the progress of the child in each of the subjects wherein the module for monitoring progress displays an explorable environment comprising the avatar representing the child a learning path comprising a sequence of lessons or learning activities and interactive elements configured to teach facts associated with the environment.,G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Doug Dohring,"['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B']","['JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B', 'JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B']",['CN100565611C'],"['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B', 'CN100565611C']"
+IN2014DN10422A,Patent IN2014DN10422A ,IN,2015-08-21,Computer based systems methods media and educational system assembling platforms comprising an educational environment which further comprises: at least one area of skill interest or expertise; a population of learning activities associated with each area of skill interest or expertise; and a guided learning mode comprising: a software module configured to display and provide access to one or more subpopulations of learning activities to be completed by a learner; a software module configured to suggest or recommend one or more particular learning activities to a learner based on analysis of learner data; and a software module configured to allow a mentor to view and tune learner data on which suggestions or recommendations are based.,G09B7/00,Electrically-operated teaching apparatus or devices working with questions and answers,,,Doug Dohring,"['US9324240B2', 'WO2014104620A1', 'CN103399696B', 'US9652675B2', 'US9674244B2', 'RU2667440C1', 'KR20160095543A', 'CN105469335A', 'CN105654812A', 'US10286280B2', 'US10490092B2', 'KR102194227B1', 'CN108346329A', 'US12052320B2', 'CN108768614B', 'CN110910188A', 'WO2020056444A1', 'CN109285402A', 'KR102288106B1', 'CN111754118B', 'US11328732B2', 'CN113012503A', 'BR102021005422A2']","['GB2283668A', 'IT240601Y1', 'US5727950A', 'GB2333085B', 'JP2001194985A', 'US20050287510A1', 'US7974569B2', 'US20070202484A1', 'KR100835234B1', 'US20080254430A1', 'US20090035733A1', 'JP5049771B2', 'JP4934102B2', 'JP2010160556A', 'US20110010306A1', 'CN201927209U', 'CN102364916A']","['US9324240B2', 'WO2014104620A1', 'CN103399696B', 'US9652675B2', 'US9674244B2', 'RU2667440C1', 'KR20160095543A', 'CN105469335A', 'CN105654812A', 'US10286280B2', 'US10490092B2', 'KR102194227B1', 'CN108346329A', 'US12052320B2', 'CN108768614B', 'CN110910188A', 'WO2020056444A1', 'CN109285402A', 'KR102288106B1', 'CN111754118B', 'US11328732B2', 'CN113012503A', 'BR102021005422A2', 'GB2283668A', 'IT240601Y1', 'US5727950A', 'GB2333085B', 'JP2001194985A', 'US20050287510A1', 'US7974569B2', 'US20070202484A1', 'KR100835234B1', 'US20080254430A1', 'US20090035733A1', 'JP5049771B2', 'JP4934102B2', 'JP2010160556A', 'US20110010306A1', 'CN201927209U', 'CN102364916A']","['CN103399696B', 'RU2667440C1', 'CN105469335A', 'CN105654812A', 'CN108346329A', 'CN108768614B', 'CN110910188A', 'CN109285402A', 'CN111754118B', 'CN113012503A', 'BR102021005422A2']","['CN201927209U', 'CN102364916A']","['CN103399696B', 'RU2667440C1', 'CN105469335A', 'CN105654812A', 'CN108346329A', 'CN108768614B', 'CN110910188A', 'CN109285402A', 'CN111754118B', 'CN113012503A', 'BR102021005422A2', 'CN201927209U', 'CN102364916A']"
+IN2013MU02915A,Patent IN2013MU02915A ,IN,2015-07-03,"The present subject matter discloses a system and a method for providing augmented based learning content to a user. Based on a learning source referred by the user, the system is enabled to extract topics for fetching learning contents from online or offline resources such as internet or system’s database respectively. Thus, the learning source may get augmented by fetching the learning contents from said online or offline sources. Further, information layers may be generated based on topics/subject being read by the user. The information layers generated may get populated with the learning content fetched. Thereafter, the system may be enabled for matching the learning contents populated in the information layers with profile of the user stored in a user profile database. Based upon matching, the learning contents may be conceived and may be delivered to the user. The delivered learning content is personalized to the user.",G09B5/02,"Electrically-operated educational appliances with visual presentation of the material to be studied, e.g. using film strip",,,Niranjan Pedanekar,"['US10467918B1', 'US10540906B1', 'US9852648B2', 'US10854101B1', 'US10929861B2', 'US10970910B2', 'USD907032S1', 'US20210006730A1', 'CN110795635B']","['AUPQ131399A0', 'US5871211A', 'AU2001270054A1', 'US20130101970A1', 'US8010400B2', 'US6904408B1', 'US20020147627A1', 'US20060286519A1', 'CN101495942A', 'US20070154876A1', 'US7849115B2', 'US20080085497A1', 'US9685094B2', 'CN102460374A', 'US8972424B2', 'US20110123967A1', 'US20120330869A1', 'US20130002708A1', 'US9449526B1', 'US20140127667A1', 'US20140192140A1', 'US20160042654A1', 'US10339406B2', 'US9697562B2', 'KR101482430B1', 'US10515631B2', 'US20150187219A1']","['US10467918B1', 'US10540906B1', 'US9852648B2', 'US10854101B1', 'US10929861B2', 'US10970910B2', 'USD907032S1', 'US20210006730A1', 'CN110795635B', 'AUPQ131399A0', 'US5871211A', 'AU2001270054A1', 'US20130101970A1', 'US8010400B2', 'US6904408B1', 'US20020147627A1', 'US20060286519A1', 'CN101495942A', 'US20070154876A1', 'US7849115B2', 'US20080085497A1', 'US9685094B2', 'CN102460374A', 'US8972424B2', 'US20110123967A1', 'US20120330869A1', 'US20130002708A1', 'US9449526B1', 'US20140127667A1', 'US20140192140A1', 'US20160042654A1', 'US10339406B2', 'US9697562B2', 'KR101482430B1', 'US10515631B2', 'US20150187219A1']",['CN110795635B'],"['CN101495942A', 'CN102460374A']","['CN110795635B', 'CN101495942A', 'CN102460374A']"
+IN2012DE00674A,Patent IN2012DE00674A ,IN,2015-08-21,The present invention encompasses a novel one-step process for generation of nanocrystalline solid dispersions. Use of crystallization-inducing excipients for altering the crystallization propensity of pharmaceutical actives during pharmaceutical process ( e.g. spray drying) is the inventive step of the present invention. The process parameters of the pharmaceutical process have to be optimized in such a way that crystallization of the components of the dispersion is induced. The present invention is particularly of use for improving the dissolution of pharmaceutical actives exhibiting dissolution-limited bioavailability. Dissolution enhancement is because of the decreased crystallite size of the pharmaceutical active.,A61K31/415,"1,2-Diazoles",,,Kumar Bansal Arvind,"['JP2017533970A', 'HUP1500618A2', 'CN106176638B', 'RU2766086C2', 'EP3528792A1', 'WO2019022784A1', 'KR20210065977A', 'US20220096503A1', 'CN109771379A', 'TR201910337A2', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']","['US4721709A', 'KR0182801B1', 'EP0862420A4', 'AU6014098A', 'US20030203036A1', 'US6706283B1', 'US6395300B1', 'US8771740B2', 'US6780324B2', 'CA2580529A1', 'CA2598204C', 'EP1690528A1', 'WO2008048205A2', 'NZ566313A', 'US7914776B2', 'WO2009038112A1', 'DK2200588T3', 'JP2011513301A', 'EP2253306A1', 'CA2792273A1']","['JP2017533970A', 'HUP1500618A2', 'CN106176638B', 'RU2766086C2', 'EP3528792A1', 'WO2019022784A1', 'KR20210065977A', 'US20220096503A1', 'CN109771379A', 'TR201910337A2', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B', 'US4721709A', 'KR0182801B1', 'EP0862420A4', 'AU6014098A', 'US20030203036A1', 'US6706283B1', 'US6395300B1', 'US8771740B2', 'US6780324B2', 'CA2580529A1', 'CA2598204C', 'EP1690528A1', 'WO2008048205A2', 'NZ566313A', 'US7914776B2', 'WO2009038112A1', 'DK2200588T3', 'JP2011513301A', 'EP2253306A1', 'CA2792273A1']","['CN106176638B', 'RU2766086C2', 'CN109771379A', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']",[],"['CN106176638B', 'RU2766086C2', 'CN109771379A', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']"
+IN2014MN01101A,Patent IN2014MN01101A ,IN,2015-07-03,,G01N33/5008,"Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving human or animal cells for testing or evaluating the effect of chemical or biological compounds, e.g. drugs, cosmetics",,,Pavel Osten,"['CA2565870A1', 'SG11201600604QA', 'WO2016145366A1', 'CN104850864A', 'EP3510500A4', 'WO2018094290A1', 'US10303961B1', 'CN106990077A', 'EP3451190B1', 'CN108766587B', 'JP6559850B1', 'US11486950B2', 'JP6558786B1', 'EP3644228B1', 'US20220113288A1', 'KR102307479B1', 'CN109709129A', 'US11808760B1', 'CN110178757B', 'WO2021030270A1', 'IL292185A', 'CN110850070B', 'CN111061729B', 'US20210190762A1', 'CN111062346A', 'US11461216B1', 'US11605038B1', 'CN111657861B', 'WO2023044336A1', 'WO2024168475A1']","['US7998704B2', 'US8952213B2', 'US7372985B2', 'CN101484806A']","['CA2565870A1', 'SG11201600604QA', 'WO2016145366A1', 'CN104850864A', 'EP3510500A4', 'WO2018094290A1', 'US10303961B1', 'CN106990077A', 'EP3451190B1', 'CN108766587B', 'JP6559850B1', 'US11486950B2', 'JP6558786B1', 'EP3644228B1', 'US20220113288A1', 'KR102307479B1', 'CN109709129A', 'US11808760B1', 'CN110178757B', 'WO2021030270A1', 'IL292185A', 'CN110850070B', 'CN111061729B', 'US20210190762A1', 'CN111062346A', 'US11461216B1', 'US11605038B1', 'CN111657861B', 'WO2023044336A1', 'WO2024168475A1', 'US7998704B2', 'US8952213B2', 'US7372985B2', 'CN101484806A']","['CN104850864A', 'CN106990077A', 'CN108766587B', 'CN109709129A', 'CN110178757B', 'CN110850070B', 'CN111061729B', 'CN111062346A', 'CN111657861B']",['CN101484806A'],"['CN104850864A', 'CN106990077A', 'CN108766587B', 'CN109709129A', 'CN110178757B', 'CN110850070B', 'CN111061729B', 'CN111062346A', 'CN111657861B', 'CN101484806A']"
+IN2014MN00690A,Patent IN2014MN00690A ,IN,2015-07-03,An apparatus and method are disclosed for generating ability banks in a modular learning system. Learning applications each associated with metadata describing scoring metrics are stored in the modular learning system. Performance items based on the scoring metrics are also stored in the modular learning system each associated with a learning user and a learning application. The modular learning system receives an ability bank generation request specifying a set of learning users and generates an ability bank for the specified set by summing performance items associated with the learning users of the set. In one embodiment the modular learning system generates ability banks for a plurality of sets of learning users and a relative ranking of the sets based on the plurality of ability banks.,G06F16/24578,Query processing with adaptation to user needs using ranking,,,Samridh Kapoor,"['US20140052659A1', 'US9485210B2', 'US11004146B1', 'US10311741B2', 'WO2019125104A1', 'WO2019125115A1']","['US7003503B2', 'US7711847B2', 'US20060106774A1', 'US20060141441A1', 'WO2006124811A2', 'WO2008027811A2', 'US20080133476A1', 'US20080241810A1', 'US8251704B2', 'US9126116B2']","['US20140052659A1', 'US9485210B2', 'US11004146B1', 'US10311741B2', 'WO2019125104A1', 'WO2019125115A1', 'US7003503B2', 'US7711847B2', 'US20060106774A1', 'US20060141441A1', 'WO2006124811A2', 'WO2008027811A2', 'US20080133476A1', 'US20080241810A1', 'US8251704B2', 'US9126116B2']",[],[],[]
+IN2014DN07244A,Patent IN2014DN07244A ,IN,2015-04-24,Techniques are provided for selecting which videos to recommend to users by predicting the degree to which recommending each video will satisfy certain goals. To make the predictions a trained machine learning engine is fed both collaborative filtering parameter values and content based filtering parameter values. In the case of video to video recommendations the collaborative filtering parameter values may be based on a video pair that includes a video in which a user has already demonstrated an interest. The machine learning engine generates a machine learning score for each video. The machine learning scores are used as the basis for selecting which videos to recommend to a particular user.,H04N21/25,"Management operations performed by the server for facilitating the content distribution or administrating data related to end-users or client devices, e.g. end-user or client device authentication, learning user preferences for recommending movies",,,Zhichen Xu,"['JP5832502B2', 'CN105472413B', 'CN105898423A', 'US10270839B2', 'US10390082B2', 'US10003847B2', 'US10430661B2', 'US20180336645A1', 'KR102384215B1', 'US11972327B2', 'CN108769730B', 'US10896620B2', 'US11301513B2', 'CN109218801B', 'CN109168044B', 'US10812853B2', 'CN113383329A', 'CN111666484B', 'US11100560B2', 'CN110996177B', 'CN113038283B', 'KR102357360B1', 'KR102361593B1', 'CN111708964B', 'CN114079826B', 'KR102391644B1', 'KR20220141854A', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'US11962857B2', 'CN114363660B', 'US11895372B1']","['AU5934900A', 'AU6310500A', 'AUPQ246899A0', 'AU2099201A', 'JP2001282838A', 'US7441260B1', 'EP1223757B1', 'US20020174429A1', 'JP2002342375A', 'JP4098539B2', 'US7171620B2', 'CA2520621A1', 'JP4305862B2', 'US9201979B2', 'JP2008167019A', 'KR100925511B1', 'CN101271559A', 'JP2009284103A', 'KR100997028B1', 'JP2010067175A', 'JP5173856B2', 'US9215423B2', 'GB2472224A', 'JP2011175362A', 'JP5440394B2', 'CN102263992A']","['JP5832502B2', 'CN105472413B', 'CN105898423A', 'US10270839B2', 'US10390082B2', 'US10003847B2', 'US10430661B2', 'US20180336645A1', 'KR102384215B1', 'US11972327B2', 'CN108769730B', 'US10896620B2', 'US11301513B2', 'CN109218801B', 'CN109168044B', 'US10812853B2', 'CN113383329A', 'CN111666484B', 'US11100560B2', 'CN110996177B', 'CN113038283B', 'KR102357360B1', 'KR102361593B1', 'CN111708964B', 'CN114079826B', 'KR102391644B1', 'KR20220141854A', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'US11962857B2', 'CN114363660B', 'US11895372B1', 'AU5934900A', 'AU6310500A', 'AUPQ246899A0', 'AU2099201A', 'JP2001282838A', 'US7441260B1', 'EP1223757B1', 'US20020174429A1', 'JP2002342375A', 'JP4098539B2', 'US7171620B2', 'CA2520621A1', 'JP4305862B2', 'US9201979B2', 'JP2008167019A', 'KR100925511B1', 'CN101271559A', 'JP2009284103A', 'KR100997028B1', 'JP2010067175A', 'JP5173856B2', 'US9215423B2', 'GB2472224A', 'JP2011175362A', 'JP5440394B2', 'CN102263992A']","['CN105472413B', 'CN105898423A', 'CN108769730B', 'CN109218801B', 'CN109168044B', 'CN113383329A', 'CN111666484B', 'CN110996177B', 'CN113038283B', 'CN111708964B', 'CN114079826B', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'CN114363660B']","['CN101271559A', 'CN102263992A']","['CN105472413B', 'CN105898423A', 'CN108769730B', 'CN109218801B', 'CN109168044B', 'CN113383329A', 'CN111666484B', 'CN110996177B', 'CN113038283B', 'CN111708964B', 'CN114079826B', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'CN114363660B', 'CN101271559A', 'CN102263992A']"
+IN2014MN00687A,Patent IN2014MN00687A ,IN,2015-07-03,A modular learning system provides recruiting systems and methods to a recruiting user. A recruiting user provides a recruiting request to the modular learning system. The recruiting request specifies learning applications and minimum performance metrics for users qualifying for recruitment. Learning users who have performed the learning applications at the specified performance metrics are eligible for recruitment by the recruiting user and may be provided an interview with the recruiting user.,G06Q10/1053,Employment or hiring,,,Samridh Kapoor,"['US9875663B2', 'US9649556B1', 'US10607188B2', 'WO2016086133A2', 'US20170323270A1', 'US20180211343A1', 'US12052320B2', 'US11861562B2']","['US20020143573A1', 'US6537072B2', 'US8660918B2', 'CA2544324A1', 'CA2646252A1', 'US20090228323A1', 'US8597031B2', 'US20100138474A1', 'CA2777074A1', 'US8083643B2', 'US8915744B2', 'US20110276507A1', 'US20110313942A1']","['US9875663B2', 'US9649556B1', 'US10607188B2', 'WO2016086133A2', 'US20170323270A1', 'US20180211343A1', 'US12052320B2', 'US11861562B2', 'US20020143573A1', 'US6537072B2', 'US8660918B2', 'CA2544324A1', 'CA2646252A1', 'US20090228323A1', 'US8597031B2', 'US20100138474A1', 'CA2777074A1', 'US8083643B2', 'US8915744B2', 'US20110276507A1', 'US20110313942A1']",[],[],[]
+IN2014DN10141A,Patent IN2014DN10141A ,IN,2015-08-21,"Provided is a coolant- control valve which makes an efficient structure possible, and is capable of initialization learning using a stopper , by providing the interior of an actuator for powering a valve body with a stopper for initialization learning. This coolant- control valve is equipped with a rotor driven so as to control the flow of coolant for cooling an engine , a casing for housing a rotor, and a rotation- drive device (3) for driving the rotor. The control means of a rotation -drive device (3) has an initialization- learning function in the operating range of the rotor. The rotation -drive device (3) is equipped with a motor (33) and a decelerator (34). The operating range of the rotor is restricted by restricting the operating range of an output gear (41) among the power -transmitting elements provided in the decelerator (34). In addition , an output gear groove (43) and a fixed -angle stopper (44) inserted into the groove (43) are provided as restriction means for use during initialization learning by the control means.",F01P7/14,Controlling of coolant flow the coolant being liquid,,,Toru Tsuchiya,"['JP6050952B2', 'JP6394441B2', 'JP6380073B2', 'JP6581367B2', 'EP3279532B1', 'JP6304105B2', 'KR101694043B1', 'JP2017096152A', 'US20170241308A1', 'DE102016112235A1', 'US10344883B2', 'JP6790802B2', 'JP7054644B2', 'CN115419728A', 'CN108979832A', 'JP7041267B2', 'JP7127558B2', 'CN112648062B', 'DE112019002377B4', 'WO2021228780A1']","['JP3195687B2', 'JP3794783B2', 'JP2001099347A', 'JP2002098245A', 'DE10053850A1', 'US6659050B1', 'JP3872743B2', 'JP4012449B2', 'JP2005133624A', 'JP4146456B2', 'JP2007285173A', 'FR2901004B1', 'JP2011169390A']","['JP6050952B2', 'JP6394441B2', 'JP6380073B2', 'JP6581367B2', 'EP3279532B1', 'JP6304105B2', 'KR101694043B1', 'JP2017096152A', 'US20170241308A1', 'DE102016112235A1', 'US10344883B2', 'JP6790802B2', 'JP7054644B2', 'CN115419728A', 'CN108979832A', 'JP7041267B2', 'JP7127558B2', 'CN112648062B', 'DE112019002377B4', 'WO2021228780A1', 'JP3195687B2', 'JP3794783B2', 'JP2001099347A', 'JP2002098245A', 'DE10053850A1', 'US6659050B1', 'JP3872743B2', 'JP4012449B2', 'JP2005133624A', 'JP4146456B2', 'JP2007285173A', 'FR2901004B1', 'JP2011169390A']","['CN115419728A', 'CN108979832A', 'CN112648062B']",[],"['CN115419728A', 'CN108979832A', 'CN112648062B']"
+IN2014MU00990A,Patent IN2014MU00990A ,IN,2015-10-02,"The present disclosure envisages a computer implemented network enabled learning aid, and a system and method for measuring a learner's progress for professionals and novices alike. The system implements gamified learning techniques rather than monotonous age old learning exercises. This builds up user's interest in the system and motivates the users to perform better every time. Additionally, the learning techniques implemented using the system of the present disclosure inherently improve the learning abilities of the users in a progressive manner. The system includes a study meter which is automatically calibrated with respect to the user's performances at each learning levels. The study meter cooperates with a feedback module that is configured to provide feedback or review based on the user's performance in real time. This gives the user an unbiased knowledge of the areas where the user needs to focus and improve his learning abilities accordingly.",G09B5/08,Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations,,,Ashok Doraisamy Maharaj,"['US9667321B2', 'WO2016070124A1', 'EP3513399A1', 'US10725827B2', 'US20220238032A1', 'US11978359B2']","['US5597312A', 'US6807535B2', 'JP2004517379A', 'US7153140B2', 'US7286793B1', 'US20060141441A1', 'US8326659B2', 'CA2646252A1', 'GB2446427A', 'US8251704B2', 'US9214090B2', 'PT104418B']","['US9667321B2', 'WO2016070124A1', 'EP3513399A1', 'US10725827B2', 'US20220238032A1', 'US11978359B2', 'US5597312A', 'US6807535B2', 'JP2004517379A', 'US7153140B2', 'US7286793B1', 'US20060141441A1', 'US8326659B2', 'CA2646252A1', 'GB2446427A', 'US8251704B2', 'US9214090B2', 'PT104418B']",[],[],[]
+IN2014DN11078A,Patent IN2014DN11078A ,IN,2015-09-25,The present application discloses benzathine and related compounds and their use as FBXO 3 inhibitors.,A61K31/506,"Pyrimidines; Hydrogenated pyrimidines, e.g. trimethoprim not condensed and containing further heterocyclic rings",,,Beibel Chen,"['KR102179006B1', 'WO2015089087A1', 'AU2015360482B2', 'EA034912B1', 'AU2016281656B2', 'WO2018100159A1', 'CN113663071B', 'CN114805637B']","['DE2438288A1', 'US4675189A', 'JPS60100516A', 'CA1236641A', 'JP2551756B2', 'US20030013772A1', 'US6221914B1', 'JP2000143665A', 'JP2001127869A', 'US6867299B2', 'HUP0400494A3', 'JP2001278869A', 'AU2003218729A1', 'US20040033986A1', 'US7456222B2', 'SE0302811D0', 'EP2465855A1', 'WO2008142623A2', 'KR102179006B1', 'WO2015089087A1', 'AU2015360482B2']","['KR102179006B1', 'WO2015089087A1', 'AU2015360482B2', 'EA034912B1', 'AU2016281656B2', 'WO2018100159A1', 'CN113663071B', 'CN114805637B', 'DE2438288A1', 'US4675189A', 'JPS60100516A', 'CA1236641A', 'JP2551756B2', 'US20030013772A1', 'US6221914B1', 'JP2000143665A', 'JP2001127869A', 'US6867299B2', 'HUP0400494A3', 'JP2001278869A', 'AU2003218729A1', 'US20040033986A1', 'US7456222B2', 'SE0302811D0', 'EP2465855A1', 'WO2008142623A2', 'KR102179006B1', 'WO2015089087A1', 'AU2015360482B2']","['CN113663071B', 'CN114805637B']",[],"['CN113663071B', 'CN114805637B']"
+IN2014DN05805A,Patent IN2014DN05805A ,IN,2015-05-15,Described herein is the generation of optimized H3N2 H2N2 and B influenza HA polypeptides for eliciting a broadly reactive immune response to influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on H3N2 H2N2 and B influenza isolates. Provided herein are optimized H3N2 H2N2 and B influenza HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2016100926A1', 'WO2016196846A2', 'EP3307761A4', 'US10485864B2', 'US10844097B2', 'IL312520A', 'WO2020014675A1', 'WO2024167855A1']","['US5662907A', 'US6239116B1', 'DK0772619T4', 'US6207646B1', 'US6429199B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'CA2816222A1', 'US8592197B2', 'CA2598884A1', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'EP2522678A1', 'US8980281B2', 'EP2450377A1', 'US8512711B2', 'MX2009013008A', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'WO2011087839A1', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A']","['AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2016100926A1', 'WO2016196846A2', 'EP3307761A4', 'US10485864B2', 'US10844097B2', 'IL312520A', 'WO2020014675A1', 'WO2024167855A1', 'US5662907A', 'US6239116B1', 'DK0772619T4', 'US6207646B1', 'US6429199B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'CA2816222A1', 'US8592197B2', 'CA2598884A1', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'EP2522678A1', 'US8980281B2', 'EP2450377A1', 'US8512711B2', 'MX2009013008A', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'WO2011087839A1', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A']",[],[],[]
+IN2014DN05695A,Patent IN2014DN05695A ,IN,2015-05-15,Described herein is the generation of optimized H5N1 influenza HA polypeptides for eliciting a broadly reactive immune response to H5N1 influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on human and avian H5N1 isolates. Provided herein are optimized H5N1 HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['US20130028933A1', 'AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2015186721A1', 'WO2016100926A1', 'EP3307761A4', 'IL312520A', 'MX2021005257A', 'WO2020172365A1', 'GB202004825D0', 'CA3234653A1']","['US5662907A', 'DK0772619T4', 'US6239116B1', 'US6429199B1', 'US6207646B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'CN1298845C', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'JP2010501074A', 'US8980281B2', 'EP2450377A1', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1']","['US20130028933A1', 'AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2015186721A1', 'WO2016100926A1', 'EP3307761A4', 'IL312520A', 'MX2021005257A', 'WO2020172365A1', 'GB202004825D0', 'CA3234653A1', 'US5662907A', 'DK0772619T4', 'US6239116B1', 'US6429199B1', 'US6207646B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'CN1298845C', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'JP2010501074A', 'US8980281B2', 'EP2450377A1', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1']",[],['CN1298845C'],['CN1298845C']
+IN2014MN02274A,Patent IN2014MN02274A ,IN,2015-08-07,Specific binding members particularly human antibodies particularly recombinant antibodies and fragments thereof which are capable of binding to and recognizing neurons in the CNS and eliciting responses in CNS neurons are provided. The antibodies are useful in the diagnosis and treatment of conditions associated with nerve damage injury or degeneration and neurodegenerative disease and in particular in the treatment or alleviation of stroke or cerebral ischemia. The antibodies variable regions or CDR domain sequences. thereof and fragments thereof of the invention may also be used in therapy in combination with chemotherapeutics immune modulators or neuroactive agents and/or with other antibodies or fragments thereof. The antibodies or active fragments thereof may be used in therapy for stroke or cerebral ischemia alone or in combination with thrombolytics such as TPA. Antibodies are exemplified by the antibodies lgM12 and lgM42 whose sequences are provided herein.,C07K16/18,"Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans",,,Moses Rodriguez,"['US20060099203A1', 'KR20230155600A', 'US11180543B2', 'ES2874558T3', 'AU2016329197B2', 'CN113035298B', 'CN113444787A', 'CN114276418B']","['GB8308235D0', 'US4816567A', 'US5776093A', 'GB9015198D0', 'CA2150262C', 'US7473423B2', 'US6306393B1', 'EP2287191B1', 'CA2525917C', 'TW200510532A', 'PL1768999T3', 'WO2006029184A2', 'EP2007899B1', 'US8796429B2', 'US10202430B2', 'KR20110011676A', 'US9228023B2', 'CA2815046C', 'US11180543B2']","['US20060099203A1', 'KR20230155600A', 'US11180543B2', 'ES2874558T3', 'AU2016329197B2', 'CN113035298B', 'CN113444787A', 'CN114276418B', 'GB8308235D0', 'US4816567A', 'US5776093A', 'GB9015198D0', 'CA2150262C', 'US7473423B2', 'US6306393B1', 'EP2287191B1', 'CA2525917C', 'TW200510532A', 'PL1768999T3', 'WO2006029184A2', 'EP2007899B1', 'US8796429B2', 'US10202430B2', 'KR20110011676A', 'US9228023B2', 'CA2815046C', 'US11180543B2']","['CN113035298B', 'CN113444787A', 'CN114276418B']",[],"['CN113035298B', 'CN113444787A', 'CN114276418B']"
+IN2014DN07399A,Patent IN2014DN07399A ,IN,2015-04-24,Described herein is the generation of optimized H5N1 and H1N1 influenza HA polypeptides for eliciting a broadly reactive immune response to influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on H5N1 and H1N1 influenza isolates. Provided herein are optimized H5N1 and H1N1 influenza HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,A61K39/145,"Orthomyxoviridae, e.g. influenza virus",,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'US9309290B2', 'US20140286981A1', 'WO2016100926A1', 'US10220086B2', 'WO2016196846A2', 'EP3307761A4', 'WO2017053413A1', 'US10844097B2', 'IL312520A', 'EP3774884B1', 'CN112153981A', 'WO2019195284A1', 'WO2019195316A1', 'MX2021005257A']","['ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'US8030029B2', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'US9309290B2']","['AU2011302360B2', 'KR20140047069A', 'US9309290B2', 'US20140286981A1', 'WO2016100926A1', 'US10220086B2', 'WO2016196846A2', 'EP3307761A4', 'WO2017053413A1', 'US10844097B2', 'IL312520A', 'EP3774884B1', 'CN112153981A', 'WO2019195284A1', 'WO2019195316A1', 'MX2021005257A', 'ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'US8030029B2', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'US9309290B2']",['CN112153981A'],[],['CN112153981A']
+IN2014DN07702A,Patent IN2014DN07702A ,IN,2015-05-15,"A fixation device includes a member (26) a woven material (90, 112) attached to the member and suture (118) extending through the woven material and including free regions for securing the woven material to a tissue graft. A method of securing a tissue graft includes providing a fixation member having a woven material attached thereto and suture extending through the woven material; determining a desired distance between the fixation member and a tissue graft; and attaching the woven material to the tissue graft using the suture at a position to obtain the desired distance.",A61F2/0811,Fixation devices for tendons or ligaments,,,Christopher D Harner,"['US8911474B2', 'CA2713309C', 'US9445803B2', 'US8821494B2', 'US9402620B2', 'US9974643B2', 'US10052094B2', 'US9463013B2', 'US10292694B2', 'US9757113B2', 'US10405968B2', 'US10610211B2', 'US9986992B2', 'US10568616B2', 'EP3383281B1', 'EP3503815B1', 'US10433993B2', 'USD902405S1', 'US11291438B2', 'IT201900007665A1', 'USD1022200S1', 'CN117796865B']","['GB8525565D0', 'FR2638349B1', 'US5306301A', 'US5451203A', 'GB9510637D0', 'FR2745710B1', 'ES2252800T3', 'AUPO530997A0', 'US20020165611A1', 'US6203572B1', 'US6746483B1', 'US6533802B2', 'WO2006108114A2', 'US8298284B2', 'US9017380B2', 'US8852250B2', 'US20080009900A1', 'US8529610B2', 'US8460350B2', 'CN201542777U', 'US9757132B2', 'US8926661B2']","['US8911474B2', 'CA2713309C', 'US9445803B2', 'US8821494B2', 'US9402620B2', 'US9974643B2', 'US10052094B2', 'US9463013B2', 'US10292694B2', 'US9757113B2', 'US10405968B2', 'US10610211B2', 'US9986992B2', 'US10568616B2', 'EP3383281B1', 'EP3503815B1', 'US10433993B2', 'USD902405S1', 'US11291438B2', 'IT201900007665A1', 'USD1022200S1', 'CN117796865B', 'GB8525565D0', 'FR2638349B1', 'US5306301A', 'US5451203A', 'GB9510637D0', 'FR2745710B1', 'ES2252800T3', 'AUPO530997A0', 'US20020165611A1', 'US6203572B1', 'US6746483B1', 'US6533802B2', 'WO2006108114A2', 'US8298284B2', 'US9017380B2', 'US8852250B2', 'US20080009900A1', 'US8529610B2', 'US8460350B2', 'CN201542777U', 'US9757132B2', 'US8926661B2']",['CN117796865B'],['CN201542777U'],"['CN117796865B', 'CN201542777U']"
+IN2014DN10161A,Patent IN2014DN10161A ,IN,2015-08-21,"A method of forming a microneedle array can include forming a microneedle array that has one or more bioactive component. The microneedle array can include a base portion and plurality of microneedles extending from the base portion, and the one or more bioactive components are present in a higher concentration in the plurality of microneedles than in the base portion.",B29C67/00,"Shaping techniques not covered by groups B29C39/00 - B29C65/00, B29C70/00 or B29C73/00",,,Louis D Falo Jr,"['US8834423B2', 'EP4112112A1', 'JP2015157072A', 'WO2015164840A1', 'CA2967017C', 'US10441768B2', 'WO2016172554A1', 'MX2018000126A', 'US11684763B2', 'KR101811513B1', 'WO2017120322A1', 'US20170209553A1', 'EP3434314B1', 'KR101719319B1', 'US20200230846A1', 'KR101692266B1', 'JP6700144B2', 'US10913776B2', 'CN107913459A', 'CN107913460B', 'EP3582752A1', 'CN106727273A', 'US11701506B2', 'US11541015B2', 'JP7295811B2', 'US20210128897A1', 'JP6624333B2', 'WO2019094349A1', 'WO2019222570A1', 'AU2019352901A1', 'US20200131483A1', 'EP3772329A1', 'CN110368576A', 'US11213482B1', 'US11202753B1', 'BR112022022039A2', 'US20220008007A1', 'CN112569465B', 'WO2022246144A1', 'GB2607115B']","['US5246783A', 'US6290991B1', 'US7422574B2', 'US5658515A', 'EP0925088A2', 'JP2001512329A', 'US6503231B1', 'US6496629B2', 'US6611707B1', 'US6743211B1', 'US6256533B1', 'US6312612B1', 'US6379324B1', 'US6331266B1', 'US6511463B1', 'IL134997A0', 'US6595947B1', 'US6607513B1', 'US6623707B1', 'US20050008683A1', 'US6656147B1', 'US6533949B1', 'CZ20031037A3', 'US7108681B2', 'US9302903B2', 'US6767211B2', 'US6663820B2', 'US20020193729A1', 'WO2003002069A2', 'US6881203B2', 'US8361037B2', 'US7429258B2', 'US6908453B2', 'US6714707B2', 'US7588552B2', 'US6945952B2', 'US6899838B2', 'AU2003275311A1', 'WO2004033021A1', 'IL152271A', 'US7578954B2', 'US8796436B2', 'JP2005035945A', 'CN1863572A', 'US8353861B2', 'BRPI0415986A', 'EP1740256A4', 'EP1699524A4', 'EP1713533A4', 'GB0402131D0', 'US8551391B2', 'CN100540086C', 'US7591806B2', 'US7315758B2', 'EP1789127A2', 'EP1786580B1', 'US7316665B2', 'US7132054B1', 'KR101246015B1', 'KR101224257B1', 'US8267889B2', 'US8057842B2', 'CA2589733C', 'JP4913030B2', 'WO2006138719A2', 'US8376984B2', 'US8012103B2', 'US8784860B2', 'WO2007064486A1', 'US7658728B2', 'ATE532553T1', 'US7699819B2', 'EP2007423A2', 'WO2007127976A2', 'US7918814B2', 'TW200744534A', 'DE102006028781A1', 'US8250729B2', 'KR100781702B1', 'WO2008020631A1', 'JPWO2008020633A1', 'DE102006040642A1', 'US8785400B2', 'US7785301B2', 'JP2008142183A', 'TW200829215A', 'US8821446B2', 'US8560059B2', 'EP2146689B1', 'EP2153863B1', 'JP2008284318A', 'WO2008157592A1', 'EP3895737A1', 'US20090016935A1', 'US20090017210A1', 'CN101801343A', 'WO2009021048A2', 'WO2009036313A1', 'EP2200499B1', 'JP5559054B2', 'GB0719577D0', 'EP2213284B1', 'CN103961792B', 'GB0725018D0', 'WO2009105564A2', 'EP2100850A1', 'NL2001718C2', 'US8795259B2', 'CA2964564C', 'CN101347652B', 'JP5063544B2', 'US8784385B2', 'US8793075B2', 'US8788211B2', 'US8788212B2', 'US8734697B2', 'JP5709137B2', 'US8798722B2', 'KR101142730B1', 'JP2010233673A', 'US9517023B2', 'EP2441437B1', 'KR101213223B1', 'WO2011010605A1', 'WO2011050283A2', 'US8834423B2', 'US8439896B2', 'US8888761B2', 'US8321012B2', 'EP2338557A1', 'USD638534S1', 'USD619245S1', 'US8328757B2', 'JP2011224332A', 'US8545741B2', 'WO2012006677A1', 'US8784373B2', 'JP5770055B2', 'EP3495015B1', 'AU2011326732B2', 'US8784383B2', 'US8795234B2', 'US8795230B2', 'AR085406A1', 'US8696637B2', 'WO2012122163A1', 'GB201107642D0', 'US8636696B2', 'KR101881609B1', 'CN103301092B', 'EP4112112A1', 'US9526884B2']","['US8834423B2', 'EP4112112A1', 'JP2015157072A', 'WO2015164840A1', 'CA2967017C', 'US10441768B2', 'WO2016172554A1', 'MX2018000126A', 'US11684763B2', 'KR101811513B1', 'WO2017120322A1', 'US20170209553A1', 'EP3434314B1', 'KR101719319B1', 'US20200230846A1', 'KR101692266B1', 'JP6700144B2', 'US10913776B2', 'CN107913459A', 'CN107913460B', 'EP3582752A1', 'CN106727273A', 'US11701506B2', 'US11541015B2', 'JP7295811B2', 'US20210128897A1', 'JP6624333B2', 'WO2019094349A1', 'WO2019222570A1', 'AU2019352901A1', 'US20200131483A1', 'EP3772329A1', 'CN110368576A', 'US11213482B1', 'US11202753B1', 'BR112022022039A2', 'US20220008007A1', 'CN112569465B', 'WO2022246144A1', 'GB2607115B', 'US5246783A', 'US6290991B1', 'US7422574B2', 'US5658515A', 'EP0925088A2', 'JP2001512329A', 'US6503231B1', 'US6496629B2', 'US6611707B1', 'US6743211B1', 'US6256533B1', 'US6312612B1', 'US6379324B1', 'US6331266B1', 'US6511463B1', 'IL134997A0', 'US6595947B1', 'US6607513B1', 'US6623707B1', 'US20050008683A1', 'US6656147B1', 'US6533949B1', 'CZ20031037A3', 'US7108681B2', 'US9302903B2', 'US6767211B2', 'US6663820B2', 'US20020193729A1', 'WO2003002069A2', 'US6881203B2', 'US8361037B2', 'US7429258B2', 'US6908453B2', 'US6714707B2', 'US7588552B2', 'US6945952B2', 'US6899838B2', 'AU2003275311A1', 'WO2004033021A1', 'IL152271A', 'US7578954B2', 'US8796436B2', 'JP2005035945A', 'CN1863572A', 'US8353861B2', 'BRPI0415986A', 'EP1740256A4', 'EP1699524A4', 'EP1713533A4', 'GB0402131D0', 'US8551391B2', 'CN100540086C', 'US7591806B2', 'US7315758B2', 'EP1789127A2', 'EP1786580B1', 'US7316665B2', 'US7132054B1', 'KR101246015B1', 'KR101224257B1', 'US8267889B2', 'US8057842B2', 'CA2589733C', 'JP4913030B2', 'WO2006138719A2', 'US8376984B2', 'US8012103B2', 'US8784860B2', 'WO2007064486A1', 'US7658728B2', 'ATE532553T1', 'US7699819B2', 'EP2007423A2', 'WO2007127976A2', 'US7918814B2', 'TW200744534A', 'DE102006028781A1', 'US8250729B2', 'KR100781702B1', 'WO2008020631A1', 'JPWO2008020633A1', 'DE102006040642A1', 'US8785400B2', 'US7785301B2', 'JP2008142183A', 'TW200829215A', 'US8821446B2', 'US8560059B2', 'EP2146689B1', 'EP2153863B1', 'JP2008284318A', 'WO2008157592A1', 'EP3895737A1', 'US20090016935A1', 'US20090017210A1', 'CN101801343A', 'WO2009021048A2', 'WO2009036313A1', 'EP2200499B1', 'JP5559054B2', 'GB0719577D0', 'EP2213284B1', 'CN103961792B', 'GB0725018D0', 'WO2009105564A2', 'EP2100850A1', 'NL2001718C2', 'US8795259B2', 'CA2964564C', 'CN101347652B', 'JP5063544B2', 'US8784385B2', 'US8793075B2', 'US8788211B2', 'US8788212B2', 'US8734697B2', 'JP5709137B2', 'US8798722B2', 'KR101142730B1', 'JP2010233673A', 'US9517023B2', 'EP2441437B1', 'KR101213223B1', 'WO2011010605A1', 'WO2011050283A2', 'US8834423B2', 'US8439896B2', 'US8888761B2', 'US8321012B2', 'EP2338557A1', 'USD638534S1', 'USD619245S1', 'US8328757B2', 'JP2011224332A', 'US8545741B2', 'WO2012006677A1', 'US8784373B2', 'JP5770055B2', 'EP3495015B1', 'AU2011326732B2', 'US8784383B2', 'US8795234B2', 'US8795230B2', 'AR085406A1', 'US8696637B2', 'WO2012122163A1', 'GB201107642D0', 'US8636696B2', 'KR101881609B1', 'CN103301092B', 'EP4112112A1', 'US9526884B2']","['CN107913459A', 'CN107913460B', 'CN106727273A', 'CN110368576A', 'BR112022022039A2', 'CN112569465B']","['CN1863572A', 'BRPI0415986A', 'CN100540086C', 'CN101801343A', 'CN103961792B', 'CN101347652B', 'CN103301092B']","['CN107913459A', 'CN107913460B', 'CN106727273A', 'CN110368576A', 'BR112022022039A2', 'CN112569465B', 'CN1863572A', 'BRPI0415986A', 'CN100540086C', 'CN101801343A', 'CN103961792B', 'CN101347652B', 'CN103301092B']"
+IN2014MN00689A,Patent IN2014MN00689A ,IN,2015-07-03,An apparatus and method are disclosed for generating a personalized tutoring stream in a modular learning system. Learning applications are stored in the modular learning system each associated with at least one application service. The modular learning system receives a performance request specifying one or more learning applications. After determining an availability of application services associated with the one or more specified learning applications the modular learning system adds the specified learning applications to a tutoring stream associated with the tutoring user.,G06Q10/06311,"Scheduling, planning or task assignment for a person or group",,,Samridh Kapoor,"['US20140122145A1', 'US20150120594A1', 'US10832584B2', 'US11036770B2', 'CN112330278B', 'US11715384B2']","['US5270920A', 'US6988138B1', 'JP2004517379A', 'US20050021352A1', 'WO2005017688A2', 'US20050164154A1', 'US7467947B2', 'US8121985B2', 'US8358965B2', 'US8251704B2', 'US20090035733A1', 'GB2472731A', 'US20090305200A1', 'US20090319321A1', 'WO2013040107A1']","['US20140122145A1', 'US20150120594A1', 'US10832584B2', 'US11036770B2', 'CN112330278B', 'US11715384B2', 'US5270920A', 'US6988138B1', 'JP2004517379A', 'US20050021352A1', 'WO2005017688A2', 'US20050164154A1', 'US7467947B2', 'US8121985B2', 'US8358965B2', 'US8251704B2', 'US20090035733A1', 'GB2472731A', 'US20090305200A1', 'US20090319321A1', 'WO2013040107A1']",['CN112330278B'],[],['CN112330278B']
+IN2014CN00716A,Patent IN2014CN00716A ,IN,2015-04-03,Certain aspects of the present disclosure support a technique for neural temporal coding learning and recognition. A method of neural coding of large or long spatial temporal patterns is also proposed. Further generalized neural coding and learning with temporal and rate coding is disclosed in the present disclosure.,G06N3/04,"Architecture, e.g. interconnection topology",,,Victor Hokkiu Chan,"['US9122994B2', 'US9405975B2', 'US9906838B2', 'US9070039B2', 'US9053428B2', 'US9092735B2', 'US9111224B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US9424511B2', 'US8909575B2', 'US9224090B2', 'US9064215B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9111226B2', 'US9218563B2', 'US9183493B2', 'US9275326B2', 'US9123127B2', 'WO2014149070A1', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US9275329B2', 'US9652711B2', 'US9987743B2', 'US9533413B2', 'US20150269485A1', 'US20150278685A1', 'KR101925905B1', 'CN111291873A', 'US9881349B1', 'CN106295799B', 'US10083395B2', 'US9840003B2', 'KR101701250B1', 'US10423879B2', 'TWI581205B', 'JP2019518273A', 'CN106055866A', 'CN106447032B', 'JP6750118B2', 'EP3340129B1', 'CN106897768B', 'WO2018164539A1', 'US20190087714A1', 'WO2019107612A1', 'US20190302707A1', 'US11507818B2', 'TWI735886B', 'CN108985447B', 'US11188815B2', 'US11734556B2', 'KR20200111584A', 'KR102545066B1', 'US11727250B2', 'JP7521272B2', 'TWI758994B', 'TWI806042B', 'US11741353B2', 'US12050875B2', 'US12013958B2', 'CN114925734B']","['US4893255A', 'WO1993018474A1', 'JP3178884B2', 'JP3345478B2', 'US5666079A', 'RU2128363C1', 'EP0892956A4', 'US6284794B1', 'EP1025478A2', 'US6581046B1', 'US6505182B1', 'JP4478296B2', 'JP2002024795A', 'US7088860B2', 'US7287014B2', 'US7412428B2', 'US7174325B1', 'US7430546B1', 'US7657313B2', 'WO2006126185A2', 'US7904398B1', 'CA2642041C', 'WO2008010220A2', 'WO2008106615A1', 'GB0811057D0', 'WO2010025130A1', 'US8250011B2', 'US8630966B2', 'US7978510B2', 'US8250010B2', 'US8447714B2', 'JP5458791B2', 'RU2413304C1', 'US8527438B2', 'US8625337B2', 'CN101860357B', 'US8433665B2', 'US8694452B2', 'US8892485B2', 'US8606732B2', 'US9269042B2', 'US8515885B2', 'US8473439B2', 'US8756173B2', 'US9147156B2', 'US9053428B2', 'US8706662B2', 'US9092735B2', 'US9111224B2', 'US8909575B2', 'US9064215B2']","['US9122994B2', 'US9405975B2', 'US9906838B2', 'US9070039B2', 'US9053428B2', 'US9092735B2', 'US9111224B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US9424511B2', 'US8909575B2', 'US9224090B2', 'US9064215B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9111226B2', 'US9218563B2', 'US9183493B2', 'US9275326B2', 'US9123127B2', 'WO2014149070A1', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US9275329B2', 'US9652711B2', 'US9987743B2', 'US9533413B2', 'US20150269485A1', 'US20150278685A1', 'KR101925905B1', 'CN111291873A', 'US9881349B1', 'CN106295799B', 'US10083395B2', 'US9840003B2', 'KR101701250B1', 'US10423879B2', 'TWI581205B', 'JP2019518273A', 'CN106055866A', 'CN106447032B', 'JP6750118B2', 'EP3340129B1', 'CN106897768B', 'WO2018164539A1', 'US20190087714A1', 'WO2019107612A1', 'US20190302707A1', 'US11507818B2', 'TWI735886B', 'CN108985447B', 'US11188815B2', 'US11734556B2', 'KR20200111584A', 'KR102545066B1', 'US11727250B2', 'JP7521272B2', 'TWI758994B', 'TWI806042B', 'US11741353B2', 'US12050875B2', 'US12013958B2', 'CN114925734B', 'US4893255A', 'WO1993018474A1', 'JP3178884B2', 'JP3345478B2', 'US5666079A', 'RU2128363C1', 'EP0892956A4', 'US6284794B1', 'EP1025478A2', 'US6581046B1', 'US6505182B1', 'JP4478296B2', 'JP2002024795A', 'US7088860B2', 'US7287014B2', 'US7412428B2', 'US7174325B1', 'US7430546B1', 'US7657313B2', 'WO2006126185A2', 'US7904398B1', 'CA2642041C', 'WO2008010220A2', 'WO2008106615A1', 'GB0811057D0', 'WO2010025130A1', 'US8250011B2', 'US8630966B2', 'US7978510B2', 'US8250010B2', 'US8447714B2', 'JP5458791B2', 'RU2413304C1', 'US8527438B2', 'US8625337B2', 'CN101860357B', 'US8433665B2', 'US8694452B2', 'US8892485B2', 'US8606732B2', 'US9269042B2', 'US8515885B2', 'US8473439B2', 'US8756173B2', 'US9147156B2', 'US9053428B2', 'US8706662B2', 'US9092735B2', 'US9111224B2', 'US8909575B2', 'US9064215B2']","['CN111291873A', 'CN106295799B', 'CN106055866A', 'CN106447032B', 'CN106897768B', 'CN108985447B', 'CN114925734B']","['RU2128363C1', 'RU2413304C1', 'CN101860357B']","['CN111291873A', 'CN106295799B', 'CN106055866A', 'CN106447032B', 'CN106897768B', 'CN108985447B', 'CN114925734B', 'RU2128363C1', 'RU2413304C1', 'CN101860357B']"
+IN2014MN01775A,Patent IN2014MN01775A ,IN,2015-07-03,A flight control system for at least one tethered gyroglider along a flight path consistent with at least one flight mission is configured to fly the gyroglider within a portfolio of winds managing an interaction between portfolios of at least four envelopes including wind gyroglider performance flight and base station. Every flight mission corresponds to at least one flight path associated with a set containing at least one first value and at least one second value. The control system is provided with a learning and library manager comprising a repository having stored sets of first values and associated second values for each flight path. The current first values associated with a current mission are corrected based on predicted or experienced flight paths and measurable outputs to attain the desired flight path. The corrected experienced values flight path and measurable output are further stored in the repository for further learning.,G05D1/00,"Control of position, course, altitude or attitude of land, water, air or space vehicles, e.g. using automatic pilots",,,Gregory Howard Hastings,"['US8894001B2', 'WO2012061598A1', 'US9205921B1', 'US9429954B2', 'US9879655B1', 'US9840328B2', 'JP2017109528A', 'US9886864B1', 'CN106406327A', 'CN108069045B', 'US10316823B2', 'US11030906B2', 'WO2019141330A1', 'EP3810923B1']","['US3223359A', 'US3987987A', 'US4124182A', 'US5301900A', 'US5149020A', 'US5381988A', 'NL1004508C2', 'US5971320A', 'US5996934A', 'US6254034B1', 'US6523781B2', 'US20030066934A1', 'US7183663B2', 'US7109598B2', 'AUPR871201A0', 'US20050046197A1', 'GB2411209A', 'DE102004018837A1', 'FR2883403A1', 'US7275719B2', 'US20070120005A1', 'DE202006005389U1', 'PL2010783T3', 'PT103489B', 'IL176200A', 'EP1905687A3', 'ITTO20060874A1', 'RU68145U1', 'US7656053B2', 'FR2927260B1', 'EP2297459A1', 'JP5503650B2', 'US20100230546A1', 'GB0906829D0', 'US8894001B2', 'WO2012061598A1', 'US9388794B2', 'US8791585B2']","['US8894001B2', 'WO2012061598A1', 'US9205921B1', 'US9429954B2', 'US9879655B1', 'US9840328B2', 'JP2017109528A', 'US9886864B1', 'CN106406327A', 'CN108069045B', 'US10316823B2', 'US11030906B2', 'WO2019141330A1', 'EP3810923B1', 'US3223359A', 'US3987987A', 'US4124182A', 'US5301900A', 'US5149020A', 'US5381988A', 'NL1004508C2', 'US5971320A', 'US5996934A', 'US6254034B1', 'US6523781B2', 'US20030066934A1', 'US7183663B2', 'US7109598B2', 'AUPR871201A0', 'US20050046197A1', 'GB2411209A', 'DE102004018837A1', 'FR2883403A1', 'US7275719B2', 'US20070120005A1', 'DE202006005389U1', 'PL2010783T3', 'PT103489B', 'IL176200A', 'EP1905687A3', 'ITTO20060874A1', 'RU68145U1', 'US7656053B2', 'FR2927260B1', 'EP2297459A1', 'JP5503650B2', 'US20100230546A1', 'GB0906829D0', 'US8894001B2', 'WO2012061598A1', 'US9388794B2', 'US8791585B2']","['CN106406327A', 'CN108069045B']",['RU68145U1'],"['CN106406327A', 'CN108069045B', 'RU68145U1']"
+IN2014MN00688A,Patent IN2014MN00688A ,IN,2015-07-03,An apparatus and method are disclosed for generating a personalized learning stream in a modular learning system. Learning applications are stored in the modular learning system each associated with at least one application service. The modular learning system receives a performance request specifying one or more learning applications. After determining an availability of application services associated with the one or more specified learning applications the modular learning system adds the specified learning applications to a learning stream associated with the learning user.,G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Samridh Kapoor,['US9875663B2'],"['US5270920A', 'US5310349A', 'US6386883B2', 'US20040009461A1', 'JP2004517379A', 'US20050021352A1', 'US20100004969A1', 'US8251704B2', 'US20090035733A1', 'US20090305200A1', 'US20090319321A1', 'US20110039249A1', 'WO2011033460A1', 'US20120288843A1']","['US9875663B2', 'US5270920A', 'US5310349A', 'US6386883B2', 'US20040009461A1', 'JP2004517379A', 'US20050021352A1', 'US20100004969A1', 'US8251704B2', 'US20090035733A1', 'US20090305200A1', 'US20090319321A1', 'US20110039249A1', 'WO2011033460A1', 'US20120288843A1']",[],[],[]
+IN2015CH04673A,Patent IN2015CH04673A ,IN,2015-09-11,"This disclosure relates generally to software testing, and more particularly to a system and method for optimizing testing of software production incidents. In one embodiment, the method comprises analyzing an incident ticket using a machine learning algorithm to identify one or more keywords in the incident ticket, and identifying a location of the incident ticket based on the one or more keywords, a test workspace corresponding to the incident ticket based on the location, and a plurality of specific test cases corresponding to the incident ticket based on the test workspace. The identification leads to a first scenario and a second scenario. In the first scenario, the method further comprises initiating a learning process based on intelligence gathered from a manual processing of the incident ticket. In the second scenario, the method further comprises executing the plurality of specific test cases in a test environment. Figure 3",G06F11/3684,"Test management for test design, e.g. generating new test cases",,,Subramanian Jayaraman Venkata,"['EP3187438A1', 'US10223243B2', 'US10990915B2', 'US10042636B1', 'US10540263B1', 'US10990516B1', 'US10613856B2', 'US10572374B2', 'US11030547B2', 'US10713109B2', 'US20190108486A1', 'US10162740B1', 'US10735271B2', 'US10678682B2', 'US10949329B2', 'US11843628B2', 'US10289403B1', 'US10585659B2', 'US11514267B2', 'US11042581B2', 'CN111142410A', 'EP3706269B1', 'EP3706270B1', 'US11221942B2', 'US10956301B2', 'US11556843B2', 'US11093365B2', 'US11115137B2', 'US11119747B2', 'US11144437B2', 'US11188451B2', 'US11841836B2', 'US11256609B1']","['US7020697B1', 'US6701514B1', 'US6502102B1', 'US6907546B1', 'US7403901B1', 'US7225139B1', 'US7516438B1', 'US6782518B2', 'US7167870B2', 'US20050081079A1', 'US20060206867A1', 'US8832047B2', 'US7610512B2', 'US8205191B1', 'US7844861B2', 'US7958495B2', 'US7730005B2', 'US8458662B2', 'US8151276B2', 'US8276123B1', 'US8347147B2', 'US8539282B1', 'US20120254333A1', 'US8694966B2', 'US8473916B2', 'US9141378B2', 'US20130074043A1', 'US9038026B2', 'US20130311968A1', 'US8972788B2', 'US20180075457A9', 'US9015664B2', 'US20130339930A1', 'US9535818B2', 'US8660952B1', 'US9317829B2', 'US9256746B2', 'US9002763B2', 'US20140245264A1', 'US9299031B2', 'US10031841B2', 'US20150026664A1', 'IN2013MU03023A', 'US9430359B1', 'US9135146B1']","['EP3187438A1', 'US10223243B2', 'US10990915B2', 'US10042636B1', 'US10540263B1', 'US10990516B1', 'US10613856B2', 'US10572374B2', 'US11030547B2', 'US10713109B2', 'US20190108486A1', 'US10162740B1', 'US10735271B2', 'US10678682B2', 'US10949329B2', 'US11843628B2', 'US10289403B1', 'US10585659B2', 'US11514267B2', 'US11042581B2', 'CN111142410A', 'EP3706269B1', 'EP3706270B1', 'US11221942B2', 'US10956301B2', 'US11556843B2', 'US11093365B2', 'US11115137B2', 'US11119747B2', 'US11144437B2', 'US11188451B2', 'US11841836B2', 'US11256609B1', 'US7020697B1', 'US6701514B1', 'US6502102B1', 'US6907546B1', 'US7403901B1', 'US7225139B1', 'US7516438B1', 'US6782518B2', 'US7167870B2', 'US20050081079A1', 'US20060206867A1', 'US8832047B2', 'US7610512B2', 'US8205191B1', 'US7844861B2', 'US7958495B2', 'US7730005B2', 'US8458662B2', 'US8151276B2', 'US8276123B1', 'US8347147B2', 'US8539282B1', 'US20120254333A1', 'US8694966B2', 'US8473916B2', 'US9141378B2', 'US20130074043A1', 'US9038026B2', 'US20130311968A1', 'US8972788B2', 'US20180075457A9', 'US9015664B2', 'US20130339930A1', 'US9535818B2', 'US8660952B1', 'US9317829B2', 'US9256746B2', 'US9002763B2', 'US20140245264A1', 'US9299031B2', 'US10031841B2', 'US20150026664A1', 'IN2013MU03023A', 'US9430359B1', 'US9135146B1']",['CN111142410A'],['IN2013MU03023A'],"['CN111142410A', 'IN2013MU03023A']"
+IN2014CN03228A,Patent IN2014CN03228A ,IN,2015-07-03,The methods devices and systems may allow a practitioner to obtain information regarding a biological sample including analytical data a medical diagnosis and/or a prognosis or predictive analysis. In addition the methods devices and systems may train one or more machine learning algorithms to perform a diagnosis of a biological sample.,G06T7/0012,Biomedical image inspection,,,Stanley H Remiszewski,"['US8326775B2', 'US11003706B2', 'US11361014B2', 'US10535192B2', 'US11620327B2', 'US8818916B2', 'US9646005B2', 'US10635640B2', 'US20170300486A1', 'US10607355B2', 'US10193990B2', 'US10949773B2', 'US10180942B2', 'US9384196B2', 'US9953032B2', 'US10848590B2', 'US10742340B2', 'US10191976B2', 'US10380267B2', 'US9191626B2', 'US11403336B2', 'US9477658B2', 'US10380623B2', 'US9031999B2', 'US10698939B2', 'US20160321253A1', 'US10360253B2', 'US11019161B2', 'US10691642B2', 'US11216498B2', 'US11032017B2', 'US10585934B2', 'US9639532B2', 'US10614626B2', 'US10621988B2', 'US11386139B2', 'US10387914B2', 'US10380164B2', 'US9218606B2', 'US9372940B2', 'US9767143B2', 'US20180157675A1', 'US10776585B2', 'US10372746B2', 'US11604847B2', 'US8312031B2', 'US8266185B2', 'US9747420B2', 'US10733326B2', 'US9798918B2', 'US11244495B2', 'WO2015112932A1', 'CN103841420B', 'US10115316B2', 'CN107076721A', 'KR101748019B1', 'GB201505864D0', 'KR101723732B1', 'KR101822404B1', 'WO2017105641A1', 'US11195043B2', 'JP6910792B2', 'KR101876338B1', 'US11835524B2', 'WO2019008581A1', 'US11899707B2', 'JP7336443B2', 'CN112204670A', 'KR102357952B1', 'US10846544B2', 'KR102215269B1', 'KR102041402B1', 'US11181911B2', 'US20200133308A1', 'US11126870B2', 'US10839694B2', 'CN109387484A', 'US11270132B2', 'SE544735C2', 'US10789535B2', 'KR102307995B1', 'US11643005B2', 'US11285963B2', 'US11694088B2', 'US11132548B2', 'US12055408B2', 'US10776669B1', 'US11222069B2', 'US11488290B2', 'US10796444B1', 'US10789527B1', 'GB2596967B', 'KR102316557B1', 'JP7346600B2', 'CA3140835C', 'JP7383939B2', 'JP7545202B2', 'US11593662B2', 'US10748022B1', 'DE102020105123B3', 'US11590988B2', 'US11827215B2', 'KR20230011390A', 'US11756424B2', 'CN112183572B', 'US12049116B2', 'US12094180B2', 'WO2022073244A1', 'US10962473B1', 'US11955243B2', 'WO2022132966A1', 'US11514350B1', 'US11348664B1', 'KR102325963B1', 'EP4194300A1', 'US11404144B1', 'US11373107B1', 'WO2023096971A1', 'WO2024155928A1', 'US11982661B1']","['US20020146160A1', 'US20020118883A1', 'US6574304B1', 'US20040068167A1', 'JP2004185547A', 'JP2005026951A', 'JP2005176990A', 'US7907769B2', 'IL162921A0', 'WO2006020627A1', 'US20060210131A1', 'US7474775B2', 'US20060001545A1', 'WO2006125674A1', 'US7711211B2', 'WO2007067999A2', 'US20070160275A1', 'US7680341B2', 'CN101484806A', 'US8019134B2', 'US8542899B2', 'WO2008115405A2', 'US20090092299A1', 'US8116551B2', 'WO2009073963A1', 'US20090226059A1', 'WO2009142758A1', 'KR101548032B1', 'US8280133B2', 'JP2010057902A', 'US10013638B2', 'IT1391619B1', 'US8488863B2', 'US20100125421A1', 'JP2010128971A', 'JP2012510672A', 'JP5359389B2', 'US9025841B2', 'JP5786110B2', 'US9836482B2', 'AU2011210535B2', 'CA2804293A1', 'US9025850B2', 'US9348972B2', 'US9486142B2', 'US8934722B2', 'US8842883B2', 'US8948500B2', 'US20160180041A1', 'US8879813B1', 'US20160157725A1']","['US8326775B2', 'US11003706B2', 'US11361014B2', 'US10535192B2', 'US11620327B2', 'US8818916B2', 'US9646005B2', 'US10635640B2', 'US20170300486A1', 'US10607355B2', 'US10193990B2', 'US10949773B2', 'US10180942B2', 'US9384196B2', 'US9953032B2', 'US10848590B2', 'US10742340B2', 'US10191976B2', 'US10380267B2', 'US9191626B2', 'US11403336B2', 'US9477658B2', 'US10380623B2', 'US9031999B2', 'US10698939B2', 'US20160321253A1', 'US10360253B2', 'US11019161B2', 'US10691642B2', 'US11216498B2', 'US11032017B2', 'US10585934B2', 'US9639532B2', 'US10614626B2', 'US10621988B2', 'US11386139B2', 'US10387914B2', 'US10380164B2', 'US9218606B2', 'US9372940B2', 'US9767143B2', 'US20180157675A1', 'US10776585B2', 'US10372746B2', 'US11604847B2', 'US8312031B2', 'US8266185B2', 'US9747420B2', 'US10733326B2', 'US9798918B2', 'US11244495B2', 'WO2015112932A1', 'CN103841420B', 'US10115316B2', 'CN107076721A', 'KR101748019B1', 'GB201505864D0', 'KR101723732B1', 'KR101822404B1', 'WO2017105641A1', 'US11195043B2', 'JP6910792B2', 'KR101876338B1', 'US11835524B2', 'WO2019008581A1', 'US11899707B2', 'JP7336443B2', 'CN112204670A', 'KR102357952B1', 'US10846544B2', 'KR102215269B1', 'KR102041402B1', 'US11181911B2', 'US20200133308A1', 'US11126870B2', 'US10839694B2', 'CN109387484A', 'US11270132B2', 'SE544735C2', 'US10789535B2', 'KR102307995B1', 'US11643005B2', 'US11285963B2', 'US11694088B2', 'US11132548B2', 'US12055408B2', 'US10776669B1', 'US11222069B2', 'US11488290B2', 'US10796444B1', 'US10789527B1', 'GB2596967B', 'KR102316557B1', 'JP7346600B2', 'CA3140835C', 'JP7383939B2', 'JP7545202B2', 'US11593662B2', 'US10748022B1', 'DE102020105123B3', 'US11590988B2', 'US11827215B2', 'KR20230011390A', 'US11756424B2', 'CN112183572B', 'US12049116B2', 'US12094180B2', 'WO2022073244A1', 'US10962473B1', 'US11955243B2', 'WO2022132966A1', 'US11514350B1', 'US11348664B1', 'KR102325963B1', 'EP4194300A1', 'US11404144B1', 'US11373107B1', 'WO2023096971A1', 'WO2024155928A1', 'US11982661B1', 'US20020146160A1', 'US20020118883A1', 'US6574304B1', 'US20040068167A1', 'JP2004185547A', 'JP2005026951A', 'JP2005176990A', 'US7907769B2', 'IL162921A0', 'WO2006020627A1', 'US20060210131A1', 'US7474775B2', 'US20060001545A1', 'WO2006125674A1', 'US7711211B2', 'WO2007067999A2', 'US20070160275A1', 'US7680341B2', 'CN101484806A', 'US8019134B2', 'US8542899B2', 'WO2008115405A2', 'US20090092299A1', 'US8116551B2', 'WO2009073963A1', 'US20090226059A1', 'WO2009142758A1', 'KR101548032B1', 'US8280133B2', 'JP2010057902A', 'US10013638B2', 'IT1391619B1', 'US8488863B2', 'US20100125421A1', 'JP2010128971A', 'JP2012510672A', 'JP5359389B2', 'US9025841B2', 'JP5786110B2', 'US9836482B2', 'AU2011210535B2', 'CA2804293A1', 'US9025850B2', 'US9348972B2', 'US9486142B2', 'US8934722B2', 'US8842883B2', 'US8948500B2', 'US20160180041A1', 'US8879813B1', 'US20160157725A1']","['CN103841420B', 'CN107076721A', 'CN112204670A', 'CN109387484A', 'CN112183572B']",['CN101484806A'],"['CN103841420B', 'CN107076721A', 'CN112204670A', 'CN109387484A', 'CN112183572B', 'CN101484806A']"
+IN2014CN03295A,Patent IN2014CN03295A ,IN,2015-07-03,Certain aspects of the present disclosure support techniques for unsupervised neural replay learning refinement association and memory transfer.,G06N3/049,"Temporal neural networks, e.g. delay elements, oscillating neurons or pulsed inputs",,,Jason Frank Hunzinger,"['US9405975B2', 'US9906838B2', 'US9424511B2', 'US9015091B2', 'US9424513B2', 'KR101912165B1', 'US9070083B2', 'US9224090B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9183493B2', 'US9218563B2', 'US9111226B2', 'US9275326B2', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US20150134582A1', 'US9987743B2', 'US9533413B2', 'US10275705B2', 'US9881349B1', 'US10083395B2', 'US9840003B2', 'WO2017068490A1', 'WO2018182827A1', 'US11645835B2', 'US11742901B2']","['US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9424513B2', 'US8909575B2', 'WO2014081671A1']","['US9405975B2', 'US9906838B2', 'US9424511B2', 'US9015091B2', 'US9424513B2', 'KR101912165B1', 'US9070083B2', 'US9224090B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9183493B2', 'US9218563B2', 'US9111226B2', 'US9275326B2', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US20150134582A1', 'US9987743B2', 'US9533413B2', 'US10275705B2', 'US9881349B1', 'US10083395B2', 'US9840003B2', 'WO2017068490A1', 'WO2018182827A1', 'US11645835B2', 'US11742901B2', 'US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9424513B2', 'US8909575B2', 'WO2014081671A1']",[],[],[]
+IN2014CN02852A,Patent IN2014CN02852A ,IN,2015-07-03,Systems and methods of the present solution provide a more optimal solution by dynamically and automatically reacting to changing network workload. A system that starts slowly either by just examining traffic passively or by doing sub optimal acceleration can learn over time how many peer WAN optimizers are being serviced by an appliance how much traffic is coming from each peer WAN optimizers and the type of traffic being seen. Knowledge from this learning can serve to provide a better or improved baseline for the configuration of an appliance. In some embodiments based on resources (e.g. CPU Memory Disk) the system from this knowledge may determine how many WAN optimization instances should be used and of what size and how the load should be distributed across the instances of the WAN optimizer.,H04L67/1025,Dynamic adaptation of the criteria on which the server selection is based,,,Marco Murgia,"['WO2014166604A1', 'US9830354B2', 'US9251218B2', 'US9495418B2', 'US9619499B2', 'CN103986585B', 'US10310813B2', 'US10489178B2', 'US10142353B2', 'US10536357B2', 'CN106936875B', 'TWI647565B', 'US10122647B2', 'CN108347341A', 'WO2018167092A1', 'SE541441C2', 'US11068281B2', 'US11233743B2', 'CN110557320B', 'CN111031055B', 'CN111506541B', 'US11671437B2', 'US20230239247A1']","['US6728748B1', 'US20010049741A1', 'US8171124B2']","['WO2014166604A1', 'US9830354B2', 'US9251218B2', 'US9495418B2', 'US9619499B2', 'CN103986585B', 'US10310813B2', 'US10489178B2', 'US10142353B2', 'US10536357B2', 'CN106936875B', 'TWI647565B', 'US10122647B2', 'CN108347341A', 'WO2018167092A1', 'SE541441C2', 'US11068281B2', 'US11233743B2', 'CN110557320B', 'CN111031055B', 'CN111506541B', 'US11671437B2', 'US20230239247A1', 'US6728748B1', 'US20010049741A1', 'US8171124B2']","['CN103986585B', 'CN106936875B', 'CN108347341A', 'CN110557320B', 'CN111031055B', 'CN111506541B']",[],"['CN103986585B', 'CN106936875B', 'CN108347341A', 'CN110557320B', 'CN111031055B', 'CN111506541B']"
+IN2014CN03033A,Patent IN2014CN03033A ,IN,2015-07-03,Certain aspects of the present disclosure support techniques for unsupervised neural replay learning refinement association and memory transfer.,G06N3/049,"Temporal neural networks, e.g. delay elements, oscillating neurons or pulsed inputs",,,Jason Frank Hunzinger,"['US9443190B2', 'US9424513B2', 'US9015091B2', 'US9652711B2', 'CN104778202B', 'CN106650922B', 'CN109002647B', 'US11790245B2', 'EP3953868A4', 'CN110222387B', 'US11742901B2']","['US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'US20080243741A1', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']","['US9443190B2', 'US9424513B2', 'US9015091B2', 'US9652711B2', 'CN104778202B', 'CN106650922B', 'CN109002647B', 'US11790245B2', 'EP3953868A4', 'CN110222387B', 'US11742901B2', 'US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'US20080243741A1', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']","['CN104778202B', 'CN106650922B', 'CN109002647B', 'CN110222387B']",[],"['CN104778202B', 'CN106650922B', 'CN109002647B', 'CN110222387B']"
+IN2014CN03069A,Patent IN2014CN03069A ,IN,2015-07-31,Certain aspects of the present disclosure support techniques for unsupervised neural replay learning refinement association and memory transfer.,G06N3/082,"Learning methods modifying the architecture, e.g. adding, deleting or silencing nodes or connections",,,Jason Frank Hunzinger,"['US9443190B2', 'US9015091B2', 'US9424511B2', 'US9652711B2', 'US20150286925A1', 'US10740659B2', 'KR20210137191A', 'CN113874881A', 'JP7118930B2', 'US11742901B2']","['US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']","['US9443190B2', 'US9015091B2', 'US9424511B2', 'US9652711B2', 'US20150286925A1', 'US10740659B2', 'KR20210137191A', 'CN113874881A', 'JP7118930B2', 'US11742901B2', 'US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']",['CN113874881A'],[],['CN113874881A']
+IN2014CN02114A,Patent IN2014CN02114A ,IN,2015-05-29,Provided herein are flu hemagglutinin polypeptides including chimeric influenza virus hemagglutinin polypeptides and flu hemagglutinin polypeptides comprising modified glycosylation sites and non naturally glycosylation sites compositions comprising the same vaccines comprising the same and methods of their use.,C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Sastre Adolfo Garcia,"['JP2012521786A', 'AU2010254136B2', 'US8524220B1', 'US9597379B1', 'US8771669B1', 'JP2013520172A', 'US9708373B2', 'US10183069B2', 'EA201490659A1', 'JP2016508133A', 'WO2014159960A1', 'AU2014329609B2', 'US9737592B1', 'SG10201912038TA', 'US20170121373A1', 'IL249704B', 'CA2954780A1', 'US9616114B1', 'CA2974699A1', 'MX2017014146A', 'CN113480640B', 'WO2016205347A1', 'CN116271017A', 'SG11201806567WA', 'JP6868763B2', 'IL312520A', 'WO2017210445A1', 'WO2017218624A1', 'US11338033B2', 'WO2018085488A1', 'US20180128545A1', 'US11129906B1', 'US11180535B1', 'WO2018175560A1', 'CA3058652A1', 'WO2019195316A1', 'JP2021519597A', 'WO2019222674A1', 'WO2020014675A1', 'CN109096376A', 'KR102098585B1', 'JP2022526632A', 'EP4031558A4', 'CA3158145A1', 'CN116075315A', 'CN112111503B', 'US20240050551A1', 'CN113082187B', 'TW202334429A']","['US4444887A', 'US4769330A', 'US4722848A', 'US5833975A', 'US5174993A', 'US4603112A', 'US5110587A', 'US4522811A', 'US4716111A', 'ZA836080B', 'US4693981A', 'US5106619A', 'FR2583429B1', 'US5182192A', 'US5057540A', 'US4912094B1', 'US5223409A', 'US5413923A', 'US5166057A', 'US6001634A', 'US5854037A', 'DE69120146T2', 'US6887699B1', 'GB9015198D0', 'FR2664905B1', 'DK0814159T3', 'US5661016A', 'US5633425A', 'US5545806A', 'US5625126A', 'US5612487A', 'US6034298A', 'US5484719A', 'ES2313867T3', 'US6337070B1', 'JP3037554B2', 'EP0621339B1', 'US5589174A', 'GB9221654D0', 'WO1994012629A1', 'WO1994016109A1', 'WO1994017826A1', 'US5573916A', 'US5505947A', 'US5622701A', 'PT702085E', 'WO1996011279A2', 'EP1709970A1', 'AU2466895A', 'US7153510B1', 'ATE181112T1', 'US5929304A', 'CA2230033C', 'JP2820106B2', 'CA2252438C', 'US6261561B1', 'BR9710363A', 'IL155588A0', 'US20050032211A1', 'AU4427897A', 'US5916771A', 'CA2273194C', 'US5891705A', 'TR199902553T2', 'US6235883B1', 'CA2291216A1', 'US6165476A', 'PT1012244E', 'AU9389998A', 'ES2400445T3', 'CA2334857C', 'US6544785B1', 'US6146642A', 'CN100410268C', 'AT407958B', 'CA2365592C', 'ATE353370T1', 'HUP0202846A3', 'US7521220B2', 'AU2001250856A1', 'SI1317559T1', 'US6632620B1', 'ES2295175T3', 'BRPI0307679A2', 'US20040091503A1', 'CA2514177A1', 'WO2004075829A2', 'US7695725B2', 'JP4368594B2', 'US7951557B2', 'AU2004235813B2', 'CA2816222A1', 'US8592197B2', 'US8551756B2', 'EP2261380B1', 'AU2005248377B2', 'MX2007004414A', 'CA2598884A1', 'US20070020238A1', 'JP4758148B2', 'KR20070000554A', 'PE20070171A1', 'US7951384B2', 'NZ568211A', 'HUE037460T2', 'ATE552846T1', 'US10183986B2', 'JP2009526526A', 'US20070207171A1', 'EP1991264B1', 'ES2388556T3', 'EP2357184B1', 'US20100068223A1', 'US9101578B2', 'US20070262178A1', 'EP2522678A1', 'US8148085B2', 'CA2657849A1', 'WO2008002238A1', 'US20100143406A1', 'EP2520168B1', 'EP2450377A1', 'CA3016948A1', 'EP2716656B1', 'EP2014279A1', 'EA201070066A1', 'CA2615372A1', 'ES2542644T3', 'WO2009025770A2', 'US9421254B2', 'FR2921387B1', 'GB0810305D0', 'EP2610345B1', 'CN101970483A', 'WO2009092038A1', 'ITTO20080204A1', 'WO2009121004A2', 'GB0905570D0', 'WO2010003766A2', 'WO2009156405A1', 'PT2294202E', 'WO2010036948A2', 'JP2012521786A', 'WO2010130636A1', 'AU2010254136B2', 'SI2445928T1', 'US8828406B2', 'JP5463107B2', 'WO2011044152A1', 'JP2013060367A', 'US8298820B2', 'JP2013520172A', 'MX338758B', 'US9708373B2', 'EP3450454A1', 'EA201490659A1', 'BR112014012681A8', 'US10023629B2', 'JP2016508133A', 'JP2016506416A', 'MX2015011529A', 'AU2014236508A1', 'WO2014159960A1', 'AU2014235556A1', 'PL235555B1', 'CA2974699A1', 'WO2016205347A1', 'WO2017210445A1', 'WO2017218624A1']","['JP2012521786A', 'AU2010254136B2', 'US8524220B1', 'US9597379B1', 'US8771669B1', 'JP2013520172A', 'US9708373B2', 'US10183069B2', 'EA201490659A1', 'JP2016508133A', 'WO2014159960A1', 'AU2014329609B2', 'US9737592B1', 'SG10201912038TA', 'US20170121373A1', 'IL249704B', 'CA2954780A1', 'US9616114B1', 'CA2974699A1', 'MX2017014146A', 'CN113480640B', 'WO2016205347A1', 'CN116271017A', 'SG11201806567WA', 'JP6868763B2', 'IL312520A', 'WO2017210445A1', 'WO2017218624A1', 'US11338033B2', 'WO2018085488A1', 'US20180128545A1', 'US11129906B1', 'US11180535B1', 'WO2018175560A1', 'CA3058652A1', 'WO2019195316A1', 'JP2021519597A', 'WO2019222674A1', 'WO2020014675A1', 'CN109096376A', 'KR102098585B1', 'JP2022526632A', 'EP4031558A4', 'CA3158145A1', 'CN116075315A', 'CN112111503B', 'US20240050551A1', 'CN113082187B', 'TW202334429A', 'US4444887A', 'US4769330A', 'US4722848A', 'US5833975A', 'US5174993A', 'US4603112A', 'US5110587A', 'US4522811A', 'US4716111A', 'ZA836080B', 'US4693981A', 'US5106619A', 'FR2583429B1', 'US5182192A', 'US5057540A', 'US4912094B1', 'US5223409A', 'US5413923A', 'US5166057A', 'US6001634A', 'US5854037A', 'DE69120146T2', 'US6887699B1', 'GB9015198D0', 'FR2664905B1', 'DK0814159T3', 'US5661016A', 'US5633425A', 'US5545806A', 'US5625126A', 'US5612487A', 'US6034298A', 'US5484719A', 'ES2313867T3', 'US6337070B1', 'JP3037554B2', 'EP0621339B1', 'US5589174A', 'GB9221654D0', 'WO1994012629A1', 'WO1994016109A1', 'WO1994017826A1', 'US5573916A', 'US5505947A', 'US5622701A', 'PT702085E', 'WO1996011279A2', 'EP1709970A1', 'AU2466895A', 'US7153510B1', 'ATE181112T1', 'US5929304A', 'CA2230033C', 'JP2820106B2', 'CA2252438C', 'US6261561B1', 'BR9710363A', 'IL155588A0', 'US20050032211A1', 'AU4427897A', 'US5916771A', 'CA2273194C', 'US5891705A', 'TR199902553T2', 'US6235883B1', 'CA2291216A1', 'US6165476A', 'PT1012244E', 'AU9389998A', 'ES2400445T3', 'CA2334857C', 'US6544785B1', 'US6146642A', 'CN100410268C', 'AT407958B', 'CA2365592C', 'ATE353370T1', 'HUP0202846A3', 'US7521220B2', 'AU2001250856A1', 'SI1317559T1', 'US6632620B1', 'ES2295175T3', 'BRPI0307679A2', 'US20040091503A1', 'CA2514177A1', 'WO2004075829A2', 'US7695725B2', 'JP4368594B2', 'US7951557B2', 'AU2004235813B2', 'CA2816222A1', 'US8592197B2', 'US8551756B2', 'EP2261380B1', 'AU2005248377B2', 'MX2007004414A', 'CA2598884A1', 'US20070020238A1', 'JP4758148B2', 'KR20070000554A', 'PE20070171A1', 'US7951384B2', 'NZ568211A', 'HUE037460T2', 'ATE552846T1', 'US10183986B2', 'JP2009526526A', 'US20070207171A1', 'EP1991264B1', 'ES2388556T3', 'EP2357184B1', 'US20100068223A1', 'US9101578B2', 'US20070262178A1', 'EP2522678A1', 'US8148085B2', 'CA2657849A1', 'WO2008002238A1', 'US20100143406A1', 'EP2520168B1', 'EP2450377A1', 'CA3016948A1', 'EP2716656B1', 'EP2014279A1', 'EA201070066A1', 'CA2615372A1', 'ES2542644T3', 'WO2009025770A2', 'US9421254B2', 'FR2921387B1', 'GB0810305D0', 'EP2610345B1', 'CN101970483A', 'WO2009092038A1', 'ITTO20080204A1', 'WO2009121004A2', 'GB0905570D0', 'WO2010003766A2', 'WO2009156405A1', 'PT2294202E', 'WO2010036948A2', 'JP2012521786A', 'WO2010130636A1', 'AU2010254136B2', 'SI2445928T1', 'US8828406B2', 'JP5463107B2', 'WO2011044152A1', 'JP2013060367A', 'US8298820B2', 'JP2013520172A', 'MX338758B', 'US9708373B2', 'EP3450454A1', 'EA201490659A1', 'BR112014012681A8', 'US10023629B2', 'JP2016508133A', 'JP2016506416A', 'MX2015011529A', 'AU2014236508A1', 'WO2014159960A1', 'AU2014235556A1', 'PL235555B1', 'CA2974699A1', 'WO2016205347A1', 'WO2017210445A1', 'WO2017218624A1']","['CN113480640B', 'CN116271017A', 'CN109096376A', 'CN116075315A', 'CN112111503B', 'CN113082187B']","['ZA836080B', 'BR9710363A', 'CN100410268C', 'BRPI0307679A2', 'CN101970483A', 'BR112014012681A8']","['CN113480640B', 'CN116271017A', 'CN109096376A', 'CN116075315A', 'CN112111503B', 'CN113082187B', 'ZA836080B', 'BR9710363A', 'CN100410268C', 'BRPI0307679A2', 'CN101970483A', 'BR112014012681A8']"
+IN2014DN03048A,Patent IN2014DN03048A ,IN,2015-05-08,This vehicle control device is equipped with: an engine (3); a power transmission device (5) that transmits power from the engine (3) to the drive wheels (4); a mechanical pump (31) that supplies oil for operating the power transmission device (5) to the power transmission device (5) by means of the driving of the engine (3); and an electric pump (33) that supplies oil to the power transmission device (5) by means of the driving of a motor (32). In addition this vehicle control device is capable of executing a stopped economy running control wherein the engine (3) is stopped when the vehicle is stopped and a travel economy running control wherein the engine (3) is stopped while the vehicle is travelling. This vehicle control device is configured such that during the execution of stopped economy running control a learning control is implemented whereby a control value for controlling the oil pressure is updated such that the actual oil pressure generated by the electric pump (33) converges to a target value but during the execution of travel economy running control the learning control is prohibited. Thus it is possible to prevent mislearning of the characteristics of the electric pump.,F02D29/00,"Controlling engines, such controlling being peculiar to the devices driven thereby, the devices being other than parts or accessories essential to engine operation, e.g. controlling of engines by signals external thereto",,,Satoshi Yamanaka,"['JP6241728B2', 'JP2015102190A', 'KR101601489B1', 'EP3276214A4', 'JP6429697B2', 'WO2016174636A1', 'JP6190858B2', 'US9903468B2', 'DE112017005439T5', 'US10106150B2', 'JP7176540B2', 'KR20220132982A']","['JP3141823B2', 'JP3518406B2', 'JP2000291450A', 'JP3925111B2', 'JP4529335B2', 'JP3994969B2', 'JP4711661B2', 'JP4760006B2', 'JP4319151B2', 'JP4251200B2', 'DE112007000539B4', 'US7544151B2', 'CN102057155B', 'JP2010001759A', 'JP4722171B2', 'JP2011208698A', 'JP5348048B2', 'JP5054800B2', 'CN103703265B', 'WO2013153608A1', 'KR101786653B1', 'US9026323B2']","['JP6241728B2', 'JP2015102190A', 'KR101601489B1', 'EP3276214A4', 'JP6429697B2', 'WO2016174636A1', 'JP6190858B2', 'US9903468B2', 'DE112017005439T5', 'US10106150B2', 'JP7176540B2', 'KR20220132982A', 'JP3141823B2', 'JP3518406B2', 'JP2000291450A', 'JP3925111B2', 'JP4529335B2', 'JP3994969B2', 'JP4711661B2', 'JP4760006B2', 'JP4319151B2', 'JP4251200B2', 'DE112007000539B4', 'US7544151B2', 'CN102057155B', 'JP2010001759A', 'JP4722171B2', 'JP2011208698A', 'JP5348048B2', 'JP5054800B2', 'CN103703265B', 'WO2013153608A1', 'KR101786653B1', 'US9026323B2']",[],"['CN102057155B', 'CN103703265B']","['CN102057155B', 'CN103703265B']"
+IN2012DN06717A,Patent IN2012DN06717A ,IN,2015-10-23,A mosquito trap includes a container having an open end and a composition positioned in the container. The composition comprises at least one active agent. The mosquito trap also includes an enclosure protruding above the open end of the container. The enclosure includes an opening to access an interior of the enclosure and the open end of the container and at least one active agent.,A01M1/106,Catching insects by using Traps for flying insects,,,Dawn Wesson,"['WO2011094581A1', 'ES2367388B1', 'GB2507210B', 'US9155293B2', 'AU2013249080B2', 'CN103098781A', 'US9775335B2', 'MX2015012577A', 'CO7090247A1', 'US20140311015A1', 'CA2834034C', 'WO2016004472A1', 'WO2016015043A1', 'BR112017009830B1', 'WO2016094066A1', 'WO2016115539A1', 'HUE055720T2', 'WO2016128964A1', 'US10506804B2', 'ES2615165B1', 'TWI577282B', 'WO2018013574A1', 'CN109475117A', 'CN106710262A', 'MX2019009685A', 'US20170290323A1', 'CN109662070A', 'WO2020122875A1', 'US11877573B2', 'US12044000B2', 'IT202100017744A1', 'USD990613S1', 'US20230123062A1', 'USD998091S1', 'WO2023129620A1', 'USD971374S1', 'TWI842488B', 'USD1033587S1']","['US988977A', 'US983977A', 'CH172982A', 'US2569833A', 'US3120075A', 'JPS5710842B2', 'US4086720A', 'US4608774A', 'US4718193A', 'US4813174A', 'US4802303A', 'MX9201588A', 'US6192621B1', 'US5561936A', 'US5749168A', 'US5896697A', 'US5987810A', 'US5983557A', 'US5986557A', 'US6112452A', 'US6158165A', 'US6524605B1', 'EP1257171A2', 'US6532695B1', 'US6401384B1', 'US6543180B2', 'US7100324B2', 'US6662489B2', 'US6718687B2', 'US7082712B2', 'US7913449B2', 'US6920716B2', 'US6637149B1', 'DE10259651A1', 'US20040128903A1', 'US20040159040A1', 'US6910298B2', 'SI1659861T1', 'US6898896B1', 'US7281351B2', 'US7222453B2', 'US20050274061A1', 'USD515175S1', 'TWM281425U', 'US20060137240A1', 'US20060242891A1', 'US20060248782A1', 'US7093389B1', 'CN2904651Y', 'GB0612788D0', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y', 'US8205378B2', 'US7856753B2', 'WO2011094600A1', 'WO2011094581A1']","['WO2011094581A1', 'ES2367388B1', 'GB2507210B', 'US9155293B2', 'AU2013249080B2', 'CN103098781A', 'US9775335B2', 'MX2015012577A', 'CO7090247A1', 'US20140311015A1', 'CA2834034C', 'WO2016004472A1', 'WO2016015043A1', 'BR112017009830B1', 'WO2016094066A1', 'WO2016115539A1', 'HUE055720T2', 'WO2016128964A1', 'US10506804B2', 'ES2615165B1', 'TWI577282B', 'WO2018013574A1', 'CN109475117A', 'CN106710262A', 'MX2019009685A', 'US20170290323A1', 'CN109662070A', 'WO2020122875A1', 'US11877573B2', 'US12044000B2', 'IT202100017744A1', 'USD990613S1', 'US20230123062A1', 'USD998091S1', 'WO2023129620A1', 'USD971374S1', 'TWI842488B', 'USD1033587S1', 'US988977A', 'US983977A', 'CH172982A', 'US2569833A', 'US3120075A', 'JPS5710842B2', 'US4086720A', 'US4608774A', 'US4718193A', 'US4813174A', 'US4802303A', 'MX9201588A', 'US6192621B1', 'US5561936A', 'US5749168A', 'US5896697A', 'US5987810A', 'US5983557A', 'US5986557A', 'US6112452A', 'US6158165A', 'US6524605B1', 'EP1257171A2', 'US6532695B1', 'US6401384B1', 'US6543180B2', 'US7100324B2', 'US6662489B2', 'US6718687B2', 'US7082712B2', 'US7913449B2', 'US6920716B2', 'US6637149B1', 'DE10259651A1', 'US20040128903A1', 'US20040159040A1', 'US6910298B2', 'SI1659861T1', 'US6898896B1', 'US7281351B2', 'US7222453B2', 'US20050274061A1', 'USD515175S1', 'TWM281425U', 'US20060137240A1', 'US20060242891A1', 'US20060248782A1', 'US7093389B1', 'CN2904651Y', 'GB0612788D0', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y', 'US8205378B2', 'US7856753B2', 'WO2011094600A1', 'WO2011094581A1']","['CN103098781A', 'BR112017009830B1', 'CN109475117A', 'CN106710262A', 'CN109662070A']","['CN2904651Y', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y']","['CN103098781A', 'BR112017009830B1', 'CN109475117A', 'CN106710262A', 'CN109662070A', 'CN2904651Y', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y']"
+IN2014DN08342A,Patent IN2014DN08342A ,IN,2015-05-08,Alert directives and focused alert directives allow a user to provide feedback to a behavioral recognition system to always or never publish an alert for certain events. Such an approach bypasses the normal publication methods of the behavioral recognition system yet does not obstruct the system s learning procedures.,G06V20/52,"Surveillance or monitoring of activities, e.g. for recognising suspicious objects",,,Wesley Kenneth Cobb,"['US9959471B2', 'US9141863B2', 'IN2014DN08349A', 'US20140118543A1', 'US9286693B2', 'EP3031004A4', 'WO2015040929A1', 'US20150199698A1', 'WO2015122163A1', 'US10708550B2', 'WO2015157440A1', 'US11297284B2', 'US20160132722A1', 'US9501915B1', 'US10140827B2', 'US9420331B2', 'US10127783B2', 'US9754178B2', 'US9947215B2', 'USD782495S1', 'CN105574889B', 'CN105631462A', 'US20160196728A1', 'US9361011B1', 'CN107852480A', 'KR102015588B1', 'CN105184812B', 'WO2017142736A1', 'US9939635B2', 'US10628296B1', 'US9965382B2', 'USD854074S1', 'US10506237B1', 'US10957171B2', 'US10380429B2', 'US10192415B2', 'CN117864918A', 'CN106503618B', 'US10839203B1', 'CA3041148C', 'CN110651276A', 'US10699421B1', 'TW201904265A', 'US11783010B2', 'US10599950B2', 'US10296790B2', 'USD855684S1', 'US11134227B2', 'US10664688B2', 'US11232294B1', 'JPWO2019097784A1', 'WO2019104108A1', 'US11284041B1', 'US11030442B1', 'WO2019130548A1', 'US10706701B2', 'US10834365B2', 'US11615623B2', 'US11295139B2', 'US10978050B2', 'US11417109B1', 'CN110392228B', 'EP3557549B1', 'US10795933B1', 'WO2020003951A1', 'US11468698B1', 'US11468681B1', 'US11482045B1', 'EP3629226B1', 'US11488374B1', 'CN111115400B', 'USD900430S1', 'USD900428S1', 'USD900431S1', 'USD900429S1', 'SG10202005940YA', 'US11514767B2', 'US11900706B1', 'US11893795B2', 'US11398094B1', 'US11443516B1', 'JP7363838B2', 'US20220351319A1', 'CN113194297B', 'DE102021205480A1', 'US11587416B1', 'US11769394B2', 'US20230186670A1', 'WO2023058143A1', 'US11606247B1', 'US20230274551A1', 'EP4273812B1', 'WO2024103041A1']","['US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US6088468A', 'US7076102B2', 'US5969755A', 'US7650015B2', 'US5751378A', 'US6263088B1', 'US7036094B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7133537B1', 'US6795567B1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US20050162515A1', 'US7868912B2', 'US6678413B1', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'KR100696728B1', 'US7026979B2', 'US7127083B2', 'US7813525B2', 'US20060018516A1', 'JP4928451B2', 'US8589315B2', 'US7502498B2', 'JP2006080437A', 'US7746378B2', 'US7318052B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7801328B2', 'US7825954B2', 'US20090041297A1', 'US7884849B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'JP4413915B2', 'US8269834B2', 'US7916944B2', 'PL2118864T3', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8078233B1', 'US8411935B2', 'US8064639B2', 'US8175333B2', 'US8300924B2', 'US8013738B2', 'WO2009049314A2', 'US8195598B2', 'EP2093698A1', 'US7962435B2', 'US8427552B2', 'US8169481B2', 'US8452108B2', 'US8126833B2', 'US8121968B2', 'US8180712B2', 'WO2010055205A1', 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'US11783010B2', 'US10599950B2', 'US10296790B2', 'USD855684S1', 'US11134227B2', 'US10664688B2', 'US11232294B1', 'JPWO2019097784A1', 'WO2019104108A1', 'US11284041B1', 'US11030442B1', 'WO2019130548A1', 'US10706701B2', 'US10834365B2', 'US11615623B2', 'US11295139B2', 'US10978050B2', 'US11417109B1', 'CN110392228B', 'EP3557549B1', 'US10795933B1', 'WO2020003951A1', 'US11468698B1', 'US11468681B1', 'US11482045B1', 'EP3629226B1', 'US11488374B1', 'CN111115400B', 'USD900430S1', 'USD900428S1', 'USD900431S1', 'USD900429S1', 'SG10202005940YA', 'US11514767B2', 'US11900706B1', 'US11893795B2', 'US11398094B1', 'US11443516B1', 'JP7363838B2', 'US20220351319A1', 'CN113194297B', 'DE102021205480A1', 'US11587416B1', 'US11769394B2', 'US20230186670A1', 'WO2023058143A1', 'US11606247B1', 'US20230274551A1', 'EP4273812B1', 'WO2024103041A1', 'US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US6088468A', 'US7076102B2', 'US5969755A', 'US7650015B2', 'US5751378A', 'US6263088B1', 'US7036094B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7133537B1', 'US6795567B1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US20050162515A1', 'US7868912B2', 'US6678413B1', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'KR100696728B1', 'US7026979B2', 'US7127083B2', 'US7813525B2', 'US20060018516A1', 'JP4928451B2', 'US8589315B2', 'US7502498B2', 'JP2006080437A', 'US7746378B2', 'US7318052B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7801328B2', 'US7825954B2', 'US20090041297A1', 'US7884849B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'JP4413915B2', 'US8269834B2', 'US7916944B2', 'PL2118864T3', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8078233B1', 'US8411935B2', 'US8064639B2', 'US8175333B2', 'US8300924B2', 'US8013738B2', 'WO2009049314A2', 'US8195598B2', 'EP2093698A1', 'US7962435B2', 'US8427552B2', 'US8169481B2', 'US8452108B2', 'US8126833B2', 'US8121968B2', 'US8180712B2', 'WO2010055205A1', 'US9373055B2', 'US20100208063A1', 'US8744124B2', 'CN101557506B', 'CN101901334B', 'US8649594B1', 'US8340352B2', 'US8379085B2', 'US8493409B2', 'US8280153B2', 'US8285060B2', 'US8167430B2', 'US8270733B2', 'US8218818B2', 'US8180105B2', 'US20110134245A1', 'US8719198B2', 'US8600915B2', 'IN2014DN08349A']","['IN2014DN08349A', 'CN105574889B', 'CN105631462A', 'CN107852480A', 'CN105184812B', 'CN117864918A', 'CN106503618B', 'CN110651276A', 'CN110392228B', 'CN111115400B', 'CN113194297B']","['ZA962306B', 'CN101410855B', 'CN101557506B', 'CN101901334B', 'IN2014DN08349A']","['IN2014DN08349A', 'CN105574889B', 'CN105631462A', 'CN107852480A', 'CN105184812B', 'CN117864918A', 'CN106503618B', 'CN110651276A', 'CN110392228B', 'CN111115400B', 'CN113194297B', 'ZA962306B', 'CN101410855B', 'CN101557506B', 'CN101901334B', 'IN2014DN08349A']"
+IN2014CN00567A,Patent IN2014CN00567A ,IN,2015-04-03,Methods and apparatuses are provided for facilitating access controls for digital objects stored within a peer to peer overlay network. A privacy preserving method is provided for matching identities between a first peer node and a second peer node in a peer to peer network. Such identity matching may be used for example to ascertain whether the first peer node should provide access to certain digital object stored in the peer to peer overlay network. Rather than providing its identities in an unprotected format the second peer may provide its identities to the first peer node in a concealed representation so as to prevent the first peer from learning about non matching identities. Such concealed representation may be a data structure that cryptographically conceals one or more identities of the second peer node or a user of the second peer node within a shared data space of the data structure.,H04L67/104,Peer-to-peer [P2P] networks,,,Yinian Mao,"['US9189650B2', 'US9226231B2', 'US9892026B2', 'US9872232B2', 'US11487732B2', 'US9912594B2', 'JP6348004B2', 'JP6282779B2', 'US9298934B1', 'CN105071931B', 'US9590956B1', 'US9980135B2', 'CN106790304A', 'US11481360B2', 'CN107040540B', 'EP3629614A4', 'US11068540B2', 'CN109067791B', 'CN110263555A', 'CN111026972B']","['US7613796B2', 'JP4551202B2', 'EP1890451A1', 'US8132005B2', 'US8788807B2', 'JP4903028B2', 'US9838365B2', 'US9301121B2', 'JP2009301207A', 'CN101729583A', 'US8874769B2']","['US9189650B2', 'US9226231B2', 'US9892026B2', 'US9872232B2', 'US11487732B2', 'US9912594B2', 'JP6348004B2', 'JP6282779B2', 'US9298934B1', 'CN105071931B', 'US9590956B1', 'US9980135B2', 'CN106790304A', 'US11481360B2', 'CN107040540B', 'EP3629614A4', 'US11068540B2', 'CN109067791B', 'CN110263555A', 'CN111026972B', 'US7613796B2', 'JP4551202B2', 'EP1890451A1', 'US8132005B2', 'US8788807B2', 'JP4903028B2', 'US9838365B2', 'US9301121B2', 'JP2009301207A', 'CN101729583A', 'US8874769B2']","['CN105071931B', 'CN106790304A', 'CN107040540B', 'CN109067791B', 'CN110263555A', 'CN111026972B']",['CN101729583A'],"['CN105071931B', 'CN106790304A', 'CN107040540B', 'CN109067791B', 'CN110263555A', 'CN111026972B', 'CN101729583A']"
+IN2014CN03963A,Patent IN2014CN03963A ,IN,2015-09-04,A quick analysis tool is configured to present one or more data analysis features that are tailored to the data in a selected portion of a spreadsheet document. The quick analysis tool may provide a quick analysis tool entry button the selection of which causes a contextual user interface to be displayed. The contextual user interface facilitates a user to easily access one or more data analysis features. The quick analysis tool also provides a mechanism by which a user can preview and/or apply one or more of these data analysis features while bypassing the potentially steep learning curve and traditionally high barrier of entry for new or otherwise less advanced users of the spreadsheet application. Intermediate or otherwise more advanced users of the spreadsheet application will also benefit from the quick analysis tool because of improved efficiency for applying data analysis features to data within a spreadsheet document.,G06F40/18,"Editing, e.g. inserting or deleting of tables; using ruled lines of spreadsheets",,,Chad Barry Rothschiller,"['US20120159395A1', 'US8612874B2', 'US8689123B2', 'US9104307B2', 'US8893033B2', 'US9792017B1', 'US9202297B1', 'US10001898B1', 'US20130057587A1', 'US9146670B2', 'US9135233B2', 'US9588953B2', 'US10061473B2', 'US8793567B2', 'US9224217B2', 'US9501219B2', 'JP2014010801A', 'US9164673B2', 'US9658746B2', 'CN104520784B', 'KR101407329B1', 'US9158766B2', 'CA2838165A1', 'US20140214804A1', 'US20140245195A1', 'US10134009B2', 'US10360297B2', 'US9489368B2', 'US20150088925A1', 'CN103544250A', 'US20150169531A1', 'CN103699387B', 'US8862646B1', 'WO2015149347A1', 'KR20160143784A', 'CN105378582B', 'US20150356061A1', 'US10824799B2', 'US10585892B2', 'US10606855B2', 'KR102399588B1', 'US20160110321A1', 'US9674335B2', 'US9904456B2', 'CN104732418A', 'US9910843B2', 'US9772988B2', 'US20160253308A1', 'US10290147B2', 'US10331899B2', 'US9836444B2', 'US11775136B2', 'US12106039B2', 'US10824803B2', 'US11093703B2', 'US11726753B2', 'US10540153B2', 'US10216494B2', 'US11170164B2', 'US11080475B2', 'US10956237B2', 'CA3084152C', 'US10860656B2', 'US10996835B1', 'CN109858000B', 'US11694023B2', 'US11972204B2', 'CN112087325B', 'US12050859B2', 'US11900133B2', 'US11755829B1']","['US5040131A', 'US5375201A', 'US5619631A', 'JP2004028864A', 'US7882427B2', 'US7127672B1', 'US7933862B2', 'US20060074879A1', 'US7849395B2', 'US8549392B2', 'US8132106B2', 'JP2010218048A', 'US9275031B2']","['US20120159395A1', 'US8612874B2', 'US8689123B2', 'US9104307B2', 'US8893033B2', 'US9792017B1', 'US9202297B1', 'US10001898B1', 'US20130057587A1', 'US9146670B2', 'US9135233B2', 'US9588953B2', 'US10061473B2', 'US8793567B2', 'US9224217B2', 'US9501219B2', 'JP2014010801A', 'US9164673B2', 'US9658746B2', 'CN104520784B', 'KR101407329B1', 'US9158766B2', 'CA2838165A1', 'US20140214804A1', 'US20140245195A1', 'US10134009B2', 'US10360297B2', 'US9489368B2', 'US20150088925A1', 'CN103544250A', 'US20150169531A1', 'CN103699387B', 'US8862646B1', 'WO2015149347A1', 'KR20160143784A', 'CN105378582B', 'US20150356061A1', 'US10824799B2', 'US10585892B2', 'US10606855B2', 'KR102399588B1', 'US20160110321A1', 'US9674335B2', 'US9904456B2', 'CN104732418A', 'US9910843B2', 'US9772988B2', 'US20160253308A1', 'US10290147B2', 'US10331899B2', 'US9836444B2', 'US11775136B2', 'US12106039B2', 'US10824803B2', 'US11093703B2', 'US11726753B2', 'US10540153B2', 'US10216494B2', 'US11170164B2', 'US11080475B2', 'US10956237B2', 'CA3084152C', 'US10860656B2', 'US10996835B1', 'CN109858000B', 'US11694023B2', 'US11972204B2', 'CN112087325B', 'US12050859B2', 'US11900133B2', 'US11755829B1', 'US5040131A', 'US5375201A', 'US5619631A', 'JP2004028864A', 'US7882427B2', 'US7127672B1', 'US7933862B2', 'US20060074879A1', 'US7849395B2', 'US8549392B2', 'US8132106B2', 'JP2010218048A', 'US9275031B2']","['CN104520784B', 'CN103544250A', 'CN103699387B', 'CN105378582B', 'CN104732418A', 'CN109858000B', 'CN112087325B']",[],"['CN104520784B', 'CN103544250A', 'CN103699387B', 'CN105378582B', 'CN104732418A', 'CN109858000B', 'CN112087325B']"
+IN2012DN02779A,Patent IN2012DN02779A ,IN,2015-09-18,"Provided is diagnostic equipment for selecting a data item to be used for a diagnosis on the basis of operation history information of an operator. Plant diagnostic equipment receives a measurement signal of a plant and an operation signal of a time of operation performed by an operator using an external input device and displays a state of the plant on an image display device as display information. The plant diagnostic equipment includes a measurement signal database for storing the measurement signal of the plant, an operation history database for storing the operation signal of a time of the operation performed by the operator using the external input device, and learning means for extracting a data item to be used for a diagnosis of the plant from the display information displayed on the image display device by the operation performed by the operator using the external input device when an abnormality in the plant occurs.",G05B23/0221,"Preprocessing measurements, e.g. data collection rate adjustment; Standardization of measurements; Time series or signal analysis, e.g. frequency analysis or wavelets; Trustworthiness of measurements; Indexes therefor; Measurements using easily measured parameters to estimate parameters difficult to measure; Virtual sensor creation; De-noising; Sensor fusion; Unconventional preprocessing inherently present in specific fault detection methods like PCA-based methods",,,Takaaki Sekiai,"['CN103454515B', 'JP6078019B2', 'JP6685124B2', 'JP6620056B2', 'JP6591937B2', 'JP2018106432A', 'JP6842299B2', 'JP6756374B2', 'US10838413B2', 'JP6861653B2', 'JP7180985B2', 'MX2021001101A', 'WO2020027207A1', 'JP7184636B2', 'CN109885951A']","['JP2004206583A', 'JP4676149B2', 'JP4922597B2', 'JP4641537B2']","['CN103454515B', 'JP6078019B2', 'JP6685124B2', 'JP6620056B2', 'JP6591937B2', 'JP2018106432A', 'JP6842299B2', 'JP6756374B2', 'US10838413B2', 'JP6861653B2', 'JP7180985B2', 'MX2021001101A', 'WO2020027207A1', 'JP7184636B2', 'CN109885951A', 'JP2004206583A', 'JP4676149B2', 'JP4922597B2', 'JP4641537B2']","['CN103454515B', 'CN109885951A']",[],"['CN103454515B', 'CN109885951A']"
+IN2013MU01148A,Patent IN2013MU01148A ,IN,2015-04-24,"A system and method for biometric authentication of a user by virtue of a personalised identification and associated biometric data therewith is disclosed. A plurality of personalised identifiers and biometric data is captured from a number of users and stored in a repository as first set of recoids. The process of authentication is divided into two phases. In the first phase, either a speech recognition or character recognition process is applied in order to determine the text spoken or written by the user. Subsequently a few records are fetched from the repository on the basis of text mapping. In the second phase, biometric authentication is performed by comparing the biometric sample with the stored biometric data corresponding to the fetched records to uniquely identify a single user. Further a machine learning technique is applied in order to periodically refine a plurality of models stored in the repository.",G06F21/32,"User authentication using biometric data, e.g. fingerprints, iris scans or voiceprints",,,Sachin Kumar Agrawal,"['US9141955B2', 'US9754132B2', 'US9305260B2', 'US10042422B2', 'US20150124566A1', 'US11921471B2', 'US10188309B2', 'US10395198B2', 'US9720559B2', 'CN104639517B', 'US9747428B2', 'US9405893B2', 'KR20150125464A', 'US9529987B2', 'US10440019B2', 'US9531710B2', 'US9880632B2', 'US9424412B1', 'CN104616655B', 'US10339467B2', 'US10044710B2', 'KR101752480B1', 'US10536464B2', 'US10771969B2', 'WO2018022657A1', 'US11331045B1', 'CN110312471B', 'WO2018022597A1', 'WO2020112986A1', 'US11216069B2', 'WO2018022602A1', 'US10864444B1', 'US10555172B2', 'RU2637999C1', 'FR3058558B1', 'WO2018090011A1', 'US20180232508A1', 'JP2018136625A', 'WO2019079757A1', 'US10878072B2', 'WO2019137631A1', 'US10853463B2', 'US11907423B2', 'US11481030B2', 'US11493993B2', 'EP3743892A4', 'US11150730B1', 'US11961494B1', 'US10937414B2', 'US11138333B2', 'US11502841B2', 'US11170084B2', 'US10721070B2', 'US10938852B1', 'US11210375B2', 'US11265168B2', 'US11392802B2', 'US11489866B2', 'US11789699B2', 'US11394552B2', 'US10592001B2', 'EP3801743B1', 'WO2019231911A1', 'US10880299B2', 'EP3807795A4', 'US20220121735A1', 'WO2020018892A1', 'EP3836836B1', 'US11289097B2', 'WO2020047429A1', 'EP3853698A4', 'WO2020069181A1', 'WO2020072915A1', 'CN113396422B', 'US10905383B2', 'WO2020204894A1', 'US10719596B1', 'KR20220044530A', 'CA3150735A1', 'WO2021051023A1', 'CN110929868B', 'US12089953B1', 'WO2021152755A1', 'US11263503B2', 'US11868531B1', 'KR102390427B1', 'US11783334B2']","['US4621334A', 'US5764789A', 'US5802199A', 'US6044375A', 'US6356868B1', 'US6490560B1', 'EP2224368B1', 'US20030163739A1', 'KR100479338B1', 'US7606790B2', 'JP2004287674A', 'US7386448B1', 'US8458465B1', 'JP2007213389A', 'US8200506B2', 'US20110047605A1', 'DE102007011831A1', 'US20090276355A1', 'US8010674B2', 'US8536976B2', 'US8516562B2', 'US20090327883A1', 'US9099085B2', 'DE102008058883B4', 'US20100228692A1', 'US8660842B2', 'EP2648163B1', 'US8694315B1', 'GB2517952B']","['US9141955B2', 'US9754132B2', 'US9305260B2', 'US10042422B2', 'US20150124566A1', 'US11921471B2', 'US10188309B2', 'US10395198B2', 'US9720559B2', 'CN104639517B', 'US9747428B2', 'US9405893B2', 'KR20150125464A', 'US9529987B2', 'US10440019B2', 'US9531710B2', 'US9880632B2', 'US9424412B1', 'CN104616655B', 'US10339467B2', 'US10044710B2', 'KR101752480B1', 'US10536464B2', 'US10771969B2', 'WO2018022657A1', 'US11331045B1', 'CN110312471B', 'WO2018022597A1', 'WO2020112986A1', 'US11216069B2', 'WO2018022602A1', 'US10864444B1', 'US10555172B2', 'RU2637999C1', 'FR3058558B1', 'WO2018090011A1', 'US20180232508A1', 'JP2018136625A', 'WO2019079757A1', 'US10878072B2', 'WO2019137631A1', 'US10853463B2', 'US11907423B2', 'US11481030B2', 'US11493993B2', 'EP3743892A4', 'US11150730B1', 'US11961494B1', 'US10937414B2', 'US11138333B2', 'US11502841B2', 'US11170084B2', 'US10721070B2', 'US10938852B1', 'US11210375B2', 'US11265168B2', 'US11392802B2', 'US11489866B2', 'US11789699B2', 'US11394552B2', 'US10592001B2', 'EP3801743B1', 'WO2019231911A1', 'US10880299B2', 'EP3807795A4', 'US20220121735A1', 'WO2020018892A1', 'EP3836836B1', 'US11289097B2', 'WO2020047429A1', 'EP3853698A4', 'WO2020069181A1', 'WO2020072915A1', 'CN113396422B', 'US10905383B2', 'WO2020204894A1', 'US10719596B1', 'KR20220044530A', 'CA3150735A1', 'WO2021051023A1', 'CN110929868B', 'US12089953B1', 'WO2021152755A1', 'US11263503B2', 'US11868531B1', 'KR102390427B1', 'US11783334B2', 'US4621334A', 'US5764789A', 'US5802199A', 'US6044375A', 'US6356868B1', 'US6490560B1', 'EP2224368B1', 'US20030163739A1', 'KR100479338B1', 'US7606790B2', 'JP2004287674A', 'US7386448B1', 'US8458465B1', 'JP2007213389A', 'US8200506B2', 'US20110047605A1', 'DE102007011831A1', 'US20090276355A1', 'US8010674B2', 'US8536976B2', 'US8516562B2', 'US20090327883A1', 'US9099085B2', 'DE102008058883B4', 'US20100228692A1', 'US8660842B2', 'EP2648163B1', 'US8694315B1', 'GB2517952B']","['CN104639517B', 'CN104616655B', 'CN110312471B', 'RU2637999C1', 'CN113396422B', 'CN110929868B']",[],"['CN104639517B', 'CN104616655B', 'CN110312471B', 'RU2637999C1', 'CN113396422B', 'CN110929868B']"
+IN2014MN02173A,Patent IN2014MN02173A ,IN,2015-08-28,Methods systems and devices for generating data models in a client cloud communication system may include applying machine learning techniques to generate a first family of classifier models that describe a cloud corpus of behavior vectors. Such vectors may be analyzed to identify factors in the first family of classifier models that have the highest probably of enabling a mobile device to conclusively determine whether a mobile device behavior is malicious or benign. Based on this analysis a a second family of classifier models may be generated that identify significantly fewer factors and data points as being relevant for enabling the mobile device to conclusively determine whether the mobile device behavior is malicious or benign based on the determined factors. A mobile device classifier module based on the second family of classifier models may be generated and made available for download by mobile devices including devices contributing behavior vectors.,G06N20/00,Machine learning,,,Rajarshi Gupta,"['US9324034B2', 'US9609456B2', 'US9690635B2', 'US9298494B2', 'US9202047B2', 'US9495537B2', 'US9747440B2', 'US9330257B2', 'US9319897B2', 'US11126720B2', 'KR20150084970A', 'US9684870B2', 'US10089582B2', 'US9686023B2', 'US9742559B2', 'EP2949144B1', 'US9491187B2', 'US9591003B2', 'WO2015112760A1', 'US9684787B2', 'US9213941B2', 'US20150324688A1', 'US9826338B2', 'US10613046B2', 'US20160245686A1', 'US10648735B2', 'US10638295B2', 'US10599982B2', 'US10481195B2', 'US20160245279A1', 'US20160313216A1', 'US9875357B2', 'US20160232353A1', 'US20160350657A1', 'US9823289B2', 'JP6557334B2', 'US11170104B1', 'KR101822404B1', 'US10354200B2', 'WO2017112686A1', 'US20170185898A1', 'US10528734B2', 'US20170308701A1', 'US10216954B2', 'US10839311B2', 'CN107645482B', 'US10846618B2', 'US10534925B2', 'US20180234302A1', 'US10511615B2', 'JP6767924B2', 'JP6767926B2', 'GB2567615A', 'CN107659717B', 'US20190104141A1', 'US10921792B2', 'US11381984B2', 'WO2019237332A1', 'CN110958208B', 'US11341363B1', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'US11386208B1', 'CN110198244B', 'US10521235B1', 'US10915428B2', 'US11379292B2', 'US10642719B1', 'US10747544B1', 'US11354222B2', 'US11093378B2', 'CN112883995B']","['US6532541B1', 'US6741974B1', 'US7103772B2', 'US8713680B2', 'US8320329B2', 'US8108323B2', 'US20090327168A1', 'US8069128B2', 'US8347386B2', 'DE102008043954A1', 'US20100153371A1', 'US8793758B2', 'JP5244686B2', 'US8694624B2', 'US8356001B2', 'US20120254333A1', 'US20120180126A1', 'US20120151479A1', 'US9326698B2', 'US8793593B2', 'US9832211B2']","['US9324034B2', 'US9609456B2', 'US9690635B2', 'US9298494B2', 'US9202047B2', 'US9495537B2', 'US9747440B2', 'US9330257B2', 'US9319897B2', 'US11126720B2', 'KR20150084970A', 'US9684870B2', 'US10089582B2', 'US9686023B2', 'US9742559B2', 'EP2949144B1', 'US9491187B2', 'US9591003B2', 'WO2015112760A1', 'US9684787B2', 'US9213941B2', 'US20150324688A1', 'US9826338B2', 'US10613046B2', 'US20160245686A1', 'US10648735B2', 'US10638295B2', 'US10599982B2', 'US10481195B2', 'US20160245279A1', 'US20160313216A1', 'US9875357B2', 'US20160232353A1', 'US20160350657A1', 'US9823289B2', 'JP6557334B2', 'US11170104B1', 'KR101822404B1', 'US10354200B2', 'WO2017112686A1', 'US20170185898A1', 'US10528734B2', 'US20170308701A1', 'US10216954B2', 'US10839311B2', 'CN107645482B', 'US10846618B2', 'US10534925B2', 'US20180234302A1', 'US10511615B2', 'JP6767924B2', 'JP6767926B2', 'GB2567615A', 'CN107659717B', 'US20190104141A1', 'US10921792B2', 'US11381984B2', 'WO2019237332A1', 'CN110958208B', 'US11341363B1', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'US11386208B1', 'CN110198244B', 'US10521235B1', 'US10915428B2', 'US11379292B2', 'US10642719B1', 'US10747544B1', 'US11354222B2', 'US11093378B2', 'CN112883995B', 'US6532541B1', 'US6741974B1', 'US7103772B2', 'US8713680B2', 'US8320329B2', 'US8108323B2', 'US20090327168A1', 'US8069128B2', 'US8347386B2', 'DE102008043954A1', 'US20100153371A1', 'US8793758B2', 'JP5244686B2', 'US8694624B2', 'US8356001B2', 'US20120254333A1', 'US20120180126A1', 'US20120151479A1', 'US9326698B2', 'US8793593B2', 'US9832211B2']","['CN107645482B', 'CN107659717B', 'CN110958208B', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'CN110198244B', 'CN112883995B']",[],"['CN107645482B', 'CN107659717B', 'CN110958208B', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'CN110198244B', 'CN112883995B']"
+IN2015DN03877A,Patent IN2015DN03877A ,IN,2015-10-02,A behavioral recognition system may include both a computer vision engine and a machine learning engine configured to observe and learn patterns of behavior in video data. Certain embodiments may provide image stabilization of a video stream obtained from a camera. An image stabilization module in the behavioral recognition system obtains a reference image from the video stream. The image stabilization module identifies alignment regions within the reference image based on the regions of the image that are dense with features. Upon determining that the tracked features of a current image is out of alignment with the reference image the image stabilization module uses the most feature dense alignment region to estimate an affine transformation matrix to apply to the entire current image to warp the image into proper alignment.,G06T7/246,"Analysis of motion using feature-based methods, e.g. the tracking of corners or segments",,,Kishor Adinath Saitwal,"['US9232140B2', 'US9286693B2', 'KR102069269B1', 'US10136063B2', 'EP3031004A4', 'US9997081B2', 'JP6242742B2', 'US9621741B2', 'JP6600232B2', 'US9858340B1', 'CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'US10748057B1', 'CN106904118A', 'CN106713702A', 'WO2018148574A1', 'DE102017206429A1', 'US10438322B2', 'JP6904843B2', 'US11989861B2', 'US10600158B2', 'US10453220B1', 'CN110033425B', 'CN108347549B', 'WO2019191002A1', 'CN108871185B', 'US10771698B2', 'CN109089015B', 'US11200424B2', 'JP2020060531A', 'CN110188754B', 'US11151695B1', 'CN113132560B', 'WO2021186961A1', 'CN112465728B', 'JP2023553153A', 'CN112991446A', 'CN115209031B', 'US11975263B2', 'EP4239590A1', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B']","['US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US7076102B2', 'US5969755A', 'US6567564B1', 'US5751378A', 'US6263088B1', 'US6285711B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US7868912B2', 'US6678413B1', 'KR100540889B1', 'US7424175B2', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7119837B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'US7606417B2', 'US7026979B2', 'US7127083B2', 'US20060018516A1', 'JP4928451B2', 'JP2006080437A', 'KR100603618B1', 'US7447337B2', 'JP4755490B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7825954B2', 'US7460730B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'US7916944B2', 'PL2118864T3', 'JP2008203992A', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8064639B2', 'WO2009049314A2', 'TWI381719B', 'EP2093698A1', 'US8452108B2', 'US8102428B2', 'US8121968B2', 'US9373055B2', 'US8054881B2', 'US20100246675A1', 'US9083845B2', 'US8724854B2', 'US8675997B2', 'WO2013091181A1', 'EP2867860A4', 'US9232140B2']","['US9232140B2', 'US9286693B2', 'KR102069269B1', 'US10136063B2', 'EP3031004A4', 'US9997081B2', 'JP6242742B2', 'US9621741B2', 'JP6600232B2', 'US9858340B1', 'CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'US10748057B1', 'CN106904118A', 'CN106713702A', 'WO2018148574A1', 'DE102017206429A1', 'US10438322B2', 'JP6904843B2', 'US11989861B2', 'US10600158B2', 'US10453220B1', 'CN110033425B', 'CN108347549B', 'WO2019191002A1', 'CN108871185B', 'US10771698B2', 'CN109089015B', 'US11200424B2', 'JP2020060531A', 'CN110188754B', 'US11151695B1', 'CN113132560B', 'WO2021186961A1', 'CN112465728B', 'JP2023553153A', 'CN112991446A', 'CN115209031B', 'US11975263B2', 'EP4239590A1', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B', 'US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US7076102B2', 'US5969755A', 'US6567564B1', 'US5751378A', 'US6263088B1', 'US6285711B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US7868912B2', 'US6678413B1', 'KR100540889B1', 'US7424175B2', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7119837B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'US7606417B2', 'US7026979B2', 'US7127083B2', 'US20060018516A1', 'JP4928451B2', 'JP2006080437A', 'KR100603618B1', 'US7447337B2', 'JP4755490B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7825954B2', 'US7460730B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'US7916944B2', 'PL2118864T3', 'JP2008203992A', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8064639B2', 'WO2009049314A2', 'TWI381719B', 'EP2093698A1', 'US8452108B2', 'US8102428B2', 'US8121968B2', 'US9373055B2', 'US8054881B2', 'US20100246675A1', 'US9083845B2', 'US8724854B2', 'US8675997B2', 'WO2013091181A1', 'EP2867860A4', 'US9232140B2']","['CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'CN106904118A', 'CN106713702A', 'CN110033425B', 'CN108347549B', 'CN108871185B', 'CN109089015B', 'CN110188754B', 'CN113132560B', 'CN112465728B', 'CN112991446A', 'CN115209031B', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B']","['ZA962306B', 'CN101410855B']","['CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'CN106904118A', 'CN106713702A', 'CN110033425B', 'CN108347549B', 'CN108871185B', 'CN109089015B', 'CN110188754B', 'CN113132560B', 'CN112465728B', 'CN112991446A', 'CN115209031B', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B', 'ZA962306B', 'CN101410855B']"
+IN2013MU03025A,Patent IN2013MU03025A ,IN,2015-07-03,"System and method for evaluating a cognitive load on a user, corresponding to a stimulus is disclosed. Electroencephalogram (EEG) data corresponding to the stimulus of a user is received. The stimulus corresponds to a mental task performed by the user. The EEG data is split into a plurality of slots. A slot of the plurality of slots comprises a subset of the EEG data. One or more EEG features are extracted from the subset of the EEG data. The one or more EEG features are represented in one of a frequency domain and a time domain. A plurality of data points present in the one or more EEG features is grouped into two or more clusters using an unsupervised learning technique. The two or more clusters comprise one or more data points of the plurality of data points. The one or more data points correspond to a level of the cognitive load.",A61B5/369,Electroencephalography [EEG],,,Diptesh Das,"['US10068490B2', 'SG11201802853SA', 'US11504038B2', 'WO2018217994A1', 'CN107260166A', 'CN107341359A', 'CA3073111C', 'EP3684463A4', 'US11717686B2', 'US11478603B2', 'US11364361B2', 'CN109009171B', 'WO2020056418A1', 'CN109567797B', 'CN109875580A', 'US11786694B2', 'CN111008590B', 'CN113159222A']","['US8374687B2', 'US7580742B2', 'WO2008057365A2', 'US8265743B2', 'AU2008356919A1', 'CN102573619B', 'US8758018B2', 'US9538934B2', 'FR2962821B1', 'US9195321B2']","['US10068490B2', 'SG11201802853SA', 'US11504038B2', 'WO2018217994A1', 'CN107260166A', 'CN107341359A', 'CA3073111C', 'EP3684463A4', 'US11717686B2', 'US11478603B2', 'US11364361B2', 'CN109009171B', 'WO2020056418A1', 'CN109567797B', 'CN109875580A', 'US11786694B2', 'CN111008590B', 'CN113159222A', 'US8374687B2', 'US7580742B2', 'WO2008057365A2', 'US8265743B2', 'AU2008356919A1', 'CN102573619B', 'US8758018B2', 'US9538934B2', 'FR2962821B1', 'US9195321B2']","['CN107260166A', 'CN107341359A', 'CN109009171B', 'CN109567797B', 'CN109875580A', 'CN111008590B', 'CN113159222A']",['CN102573619B'],"['CN107260166A', 'CN107341359A', 'CN109009171B', 'CN109567797B', 'CN109875580A', 'CN111008590B', 'CN113159222A', 'CN102573619B']"
+IN2014CN02463A,Patent IN2014CN02463A ,IN,2015-06-19,123456A compound represented by formula (I) or a pharmacologically acceptable salt thereof which has an inhibitory effect on PDE9 and therefore is expected as being capable of increasing the cGMP level in the brain. Since the inhibitory effect on PDE9 and an increase in the cGMP level contribute to improvement in learning and memory behavior the aforesaid compound or a pharmacologically acceptable salt thereof would be available as a remedy for cognitive dysfunction in Alzheimer s disease. In formula (I): R represents a hydrogen atom; R represents an aromatic ring group etc.; R represents a hydrogen atom etc.; R represents a hydrogen atom; R represents an oxepanyl group etc.; and R represents a hydrogen atom.,C07D471/04,Ortho-condensed systems,,,Yoshihiko Norimine,"['SG11201502728WA', 'SG11201507897SA', 'CN105189496B', 'GB201406486D0', 'WO2016021192A1', 'PT3865484T', 'WO2017046606A1', 'CN107056690A', 'BR112019023557A2', 'MX2019013397A', 'JP7177772B2', 'ES2980131T3', 'CN111630042A', 'SI3801526T1', 'EP3843737A4', 'CA3122183A1', 'EP3965770A4', 'CA3139109A1', 'AU2020270125A1', 'US11883461B2', 'WO2021150613A1', 'US20210355121A1', 'US11739102B2', 'MX2022016551A', 'US11999752B2', 'WO2022072783A1', 'US12077539B2', 'WO2023049697A1', 'WO2023056421A1', 'KR20240101561A']","['RU2426734C2', 'US20060035920A1', 'CA2622605A1', 'JP2009184924A', 'WO2008072779A1', 'JP4579346B2', 'UA105362C2', 'AU2010219598A1', 'ES2460019T3', 'US8880976B2', 'SI2615089T1', 'JP6042060B2']","['SG11201502728WA', 'SG11201507897SA', 'CN105189496B', 'GB201406486D0', 'WO2016021192A1', 'PT3865484T', 'WO2017046606A1', 'CN107056690A', 'BR112019023557A2', 'MX2019013397A', 'JP7177772B2', 'ES2980131T3', 'CN111630042A', 'SI3801526T1', 'EP3843737A4', 'CA3122183A1', 'EP3965770A4', 'CA3139109A1', 'AU2020270125A1', 'US11883461B2', 'WO2021150613A1', 'US20210355121A1', 'US11739102B2', 'MX2022016551A', 'US11999752B2', 'WO2022072783A1', 'US12077539B2', 'WO2023049697A1', 'WO2023056421A1', 'KR20240101561A', 'RU2426734C2', 'US20060035920A1', 'CA2622605A1', 'JP2009184924A', 'WO2008072779A1', 'JP4579346B2', 'UA105362C2', 'AU2010219598A1', 'ES2460019T3', 'US8880976B2', 'SI2615089T1', 'JP6042060B2']","['CN105189496B', 'CN107056690A', 'BR112019023557A2', 'CN111630042A']",['RU2426734C2'],"['CN105189496B', 'CN107056690A', 'BR112019023557A2', 'CN111630042A', 'RU2426734C2']"
+IN2014CN03302A,Patent IN2014CN03302A ,IN,2015-07-03,An objective of the present invention is to subtract only the difference between bulge and dent mark heights and compute and acquire only the heights of bulges and dents even when bulges and dents are present so as to overlap in the bulge and dent marks. Provided is a tire shape inspection method for inspecting sidewall surface shape defects in inspected tires using an image of a sample tire having sidewall surfaces on which bulge and dent marks are formed. The method executes the following steps: first as a teaching operation step boundary lines of the bulge and dent marks are detected in a sample source image of a sample tire a mask image is generated which denotes the boundary lines regions are removed from the sample source image which correspond to the boundary lines which are denoted in the mask image and a height offset image is generated which represents the heights of the remaining regions with one or more offset values. Next as an inspection operation step the height offset image is subtracted from an inspection image of the inspected tire the boundary regions which the mask image represents are removed and on the basis of the obtained bulge/dent removal image shape defects of the sidewall surfaces of the inspected tire are inspected.,G01M17/02,Tyres,,,Eiji Takahashi,"['US9361641B2', 'US9110032B2', 'JP5923054B2', 'JP6267481B2', 'JP5775132B2', 'US10267710B2', 'JP5831592B2', 'JP6159294B2', 'FR3022380A1', 'JP6289283B2', 'JP6413630B2', 'EP3237837B1', 'MX367880B', 'JP6279163B1', 'JP6591762B2', 'MX2017016138A', 'CN109416243A', 'CN107121084B', 'CN107121058B', 'KR101802812B1', 'CN109344832B', 'CN109325930B', 'JP7018380B2', 'RU2764644C1', 'WO2020121306A1', 'JP7220128B2', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']","['US4910411A', 'US6381547B1', 'US6831996B1', 'JP4034168B2', 'JP4679073B2', 'US7269997B2', 'JP5046688B2', 'EP2020594B1', 'EP2295930B1', 'JP5302701B2', 'KR100998058B1', 'US8712720B2', 'JP5371848B2']","['US9361641B2', 'US9110032B2', 'JP5923054B2', 'JP6267481B2', 'JP5775132B2', 'US10267710B2', 'JP5831592B2', 'JP6159294B2', 'FR3022380A1', 'JP6289283B2', 'JP6413630B2', 'EP3237837B1', 'MX367880B', 'JP6279163B1', 'JP6591762B2', 'MX2017016138A', 'CN109416243A', 'CN107121084B', 'CN107121058B', 'KR101802812B1', 'CN109344832B', 'CN109325930B', 'JP7018380B2', 'RU2764644C1', 'WO2020121306A1', 'JP7220128B2', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B', 'US4910411A', 'US6381547B1', 'US6831996B1', 'JP4034168B2', 'JP4679073B2', 'US7269997B2', 'JP5046688B2', 'EP2020594B1', 'EP2295930B1', 'JP5302701B2', 'KR100998058B1', 'US8712720B2', 'JP5371848B2']","['CN109416243A', 'CN107121084B', 'CN107121058B', 'CN109344832B', 'CN109325930B', 'RU2764644C1', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']",[],"['CN109416243A', 'CN107121084B', 'CN107121058B', 'CN109344832B', 'CN109325930B', 'RU2764644C1', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']"
+IN2014MN00677A,Patent IN2014MN00677A ,IN,2015-07-03,A modular learning system is provided for publishing new and updated learning applications to users of the modular learning system. The learning application authors are validated by the modular learning system as credentialed learning application authors. The learning application authors are optionally granted access to use a content editing interface and revise information using a template provided by a template user. The resulting learning application may be translated and certified and requested for publication. After publication update requests may be provided to the authoring user to remind the author to review and revise the learning application.,G06F16/958,"Organisation or management of web site content, e.g. publishing, maintaining pages or automatic linking",,,Samridh Kapoor,"['WO2019087064A1', 'US20160163211A1', 'US10268467B2', 'US10223136B2']","['US7845950B2', 'US6470171B1', 'US7873533B2', 'EP1219927B1', 'US7210938B2', 'EP1324212A3', 'US7029280B2', 'US20040044892A1', 'US20040076941A1', 'US7976311B2', 'US20060008789A1', 'US20070100829A1', 'US20100075288A1', 'US8112446B2', 'CA2714523A1']","['WO2019087064A1', 'US20160163211A1', 'US10268467B2', 'US10223136B2', 'US7845950B2', 'US6470171B1', 'US7873533B2', 'EP1219927B1', 'US7210938B2', 'EP1324212A3', 'US7029280B2', 'US20040044892A1', 'US20040076941A1', 'US7976311B2', 'US20060008789A1', 'US20070100829A1', 'US20100075288A1', 'US8112446B2', 'CA2714523A1']",[],[],[]
+IN2014DE00902A,Patent IN2014DE00902A ,IN,2015-10-02,"The present disclosure provides novel polynucleotide sequences for high level expression in Escherichia coli and encoding recombinant SsoPox wild-type enzyme and its variant having enhanced organophosphate (OP)-hydrolyzing activity. The invention also provides a novel method to produce the recombinant enzymes in highly pure and active form in an unprecedented high yield. The invention also provide a method to generate reusable nanobiocatalyst by covalently immobilizing pure recombinant SsoPox enzymes onto magnetic nanoparticles. The reusable nanobiocatalyst can be recovered from the reaction mixture after its use and can be stored and reused multiple times to degrade the organophosphate-compounds. The recombinant SsoPox enzymes and rSsoPox-immobilized nanobiocatalyst can be used as an economical, effective and environmental-friendly OPcompound biodegrading agent.",C12N9/16,Hydrolases (3) acting on ester bonds (3.1),,,Hariram Pande Abhay,"['CN103703128B', 'CA2986197C', 'CA2992261A1', 'CA3031802A1', 'SE1750143A1']","['FR2915489B1', 'EP2934570A1']","['CN103703128B', 'CA2986197C', 'CA2992261A1', 'CA3031802A1', 'SE1750143A1', 'FR2915489B1', 'EP2934570A1']",['CN103703128B'],[],['CN103703128B']
+IN2014DN06580A,Patent IN2014DN06580A ,IN,2015-05-22,The present invention relates to compounds and compositions useful for inhibiting and/or reducing platelet deposition adhesion and/or aggregation. The present invention further relates to a drug eluting stent comprising said compounds and methods for the treatment or prophylaxis of thrombotic disorders including stroke myocardial infarction unstable angina peripheral vascular disease abrupt closure following angioplasty or stent placement and thrombosis as a result of vascular surgery.,C07D513/04,Ortho-condensed systems,,,Barry S Coller,"['US8173661B2', 'WO2012009688A1', 'AU2019288262B2', 'JP2023520924A', 'WO2022177968A1', 'BR112023016440A2', 'TW202330552A']","['DE2823686A1', 'US4548938A', 'US8173661B2', 'EA201000340A1', 'WO2012009688A1']","['US8173661B2', 'WO2012009688A1', 'AU2019288262B2', 'JP2023520924A', 'WO2022177968A1', 'BR112023016440A2', 'TW202330552A', 'DE2823686A1', 'US4548938A', 'US8173661B2', 'EA201000340A1', 'WO2012009688A1']",['BR112023016440A2'],[],['BR112023016440A2']
+IN2012DN05143A,Patent IN2012DN05143A ,IN,2015-10-23,"The present invention provides a new drug to treat malignant glioma, which is the most prevalent 1 type of primary tumor of the central nervous system (CNS). The present invention indeed shows that the isolated NFL-TBS40-63 peptide is highly specific for glioma cells, in which it triggers apoptosis. It is therefore presented here for use in a method for treating malignant glioma. The present invention further relates to the use of the NFL-TBS40-63 peptide for detecting specifically glioma cells either in vivo, or in vitro, or for addressing chemical compounds to said tumor cells.",A61P25/00,Drugs for disorders of the nervous system,,,Joel Eyer,"['FR2869909B1', 'EP2959913A1', 'JP6612063B2', 'US10550388B2', 'CN110133288A', 'JP7480132B2', 'CN112824427B', 'WO2024068999A1']",['FR2869909B1'],"['FR2869909B1', 'EP2959913A1', 'JP6612063B2', 'US10550388B2', 'CN110133288A', 'JP7480132B2', 'CN112824427B', 'WO2024068999A1', 'FR2869909B1']","['CN110133288A', 'CN112824427B']",[],"['CN110133288A', 'CN112824427B']"
+IN2015DN03070A,Patent IN2015DN03070A ,IN,2015-10-02,"Described herein is the generation of optimized H1N1 influenza HA polypeptides for eliciting a broadly reactive immune response to H1N1 influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments , and subsequent generation of consensus sequences , based on selected H1N1 viruses isolated from 1918- 2012. Provided herein are optimized H1N1 HA polypeptides , and compositions , fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon -optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.",C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'EP2831094B1', 'US10220086B2', 'EP3307761A4', 'IL312520A']","['ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'SI2445928T1', 'US20110184160A1', 'US8298820B2', 'CN102373184A', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'EP2831094B1']","['AU2011302360B2', 'KR20140047069A', 'EP2831094B1', 'US10220086B2', 'EP3307761A4', 'IL312520A', 'ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'SI2445928T1', 'US20110184160A1', 'US8298820B2', 'CN102373184A', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'EP2831094B1']",[],['CN102373184A'],['CN102373184A']
+IN2013DE03741A,Patent IN2013DE03741A ,IN,2015-06-26,"The present invention provides a process for the synthesis of 1, 2-diamines having formula (A) via ring opening reaction of N-substituted aziridine with amines in the presence of water and a catalyst.",,,,,K Chakraborti Asit,['CN114478290A'],[],['CN114478290A'],['CN114478290A'],[],['CN114478290A']
+IN2013DE00228A,"“recombinant human paraoxonase 1 enzymes, method of generation and uses thereof” ",IN,2015-06-19,"The present invention provides novel polynucleotide sequences encoding recombinant human paraoxonase 1 enzymes, having enhanced catalytic activities towards a wide range of substrates including pro-atherogenic and pro-inflammatory molecules, quorum sensors and neurotoxic organophosphorus compounds, for high level expression in Escherichia coli. The invention also provides a novel method to produce the recombinant enzymes in highly pure and active form in high yield by refolding the recombinant enzymes from the inclusion. The molecules disclosed in the present invention can be used as therapeutic agents against PON1-associated disease or conditions. The molecules can also be used as detoxifying and decontaminating agents in numerous terrorist, drug, and environmental scenarios involving military and civilian welfare.",C12Y301/08001,"Aryldialkylphosphatase (3.1.8.1), i.e. paraoxonase",,,H Pande Abhay,"['CN110387380B', 'CN113621686A', 'CN114609216B']","['WO2007105223A2', 'US8735124B2']","['CN110387380B', 'CN113621686A', 'CN114609216B', 'WO2007105223A2', 'US8735124B2']","['CN110387380B', 'CN113621686A', 'CN114609216B']",[],"['CN110387380B', 'CN113621686A', 'CN114609216B']"
+IN2013CH06212A,Patent IN2013CH06212A ,IN,2015-07-03,"ABSTRACT A trust based sensor network with a geog raphic routing algorithm enables a co-operative network for making packet forwarding achieved with higher confidence of successful delivery from source to destination. It includes a technique to deliver a message to a node in a network over multiple hops by means of position information. In this system, a trust relationship between neighbouring nodes can be developed. Thus, a trust-based communication path can be set up. The source broadcasts a request to all nodes in its coverage area. The nodes that know the destination’s identity will reply to the source node with their position. The source node selects and forwards packet to the trusted node which has knowledge of the neighbours’ location, each node can select the next hop neighbour that is closer to the destination and trustworthy, thus advance towards the destination in each step enabling successful delivery of packets.",,,,,S Thejaswini,['CN117915332A'],[],['CN117915332A'],['CN117915332A'],[],['CN117915332A']
+IN2013MU02202A,Patent IN2013MU02202A ,IN,2015-06-12,"A method, system and computer readable medium for redistributing routes in backbone edge bridge multi-chassis link aggregation group topologies between two routing protocols is described. The method can include learning, at a first node, a first routing table entry originating from a first side of a network and being received in a first protocol and creating, at the first node, and generating second routing entry information, in a second protocol different from the first protocol. The method can also include forwarding the second routing entry information from the first node to a second node. The second node adds the second routing entry information to a routing table when the second routing is not present in a routing table and ignores the second routing entry information when the second routing entry information is present in the routing table.",H04L45/18,Loop-free operations,,,Ramesh Deepak,"['WO2012092261A2', 'US10291521B1', 'US9729641B2', 'CN108259358B', 'WO2020164049A1', 'CN112953822A']","['US7974285B2', 'US8589573B2', 'US7646778B2', 'US7936780B1', 'CN102082782B']","['WO2012092261A2', 'US10291521B1', 'US9729641B2', 'CN108259358B', 'WO2020164049A1', 'CN112953822A', 'US7974285B2', 'US8589573B2', 'US7646778B2', 'US7936780B1', 'CN102082782B']","['CN108259358B', 'CN112953822A']",['CN102082782B'],"['CN108259358B', 'CN112953822A', 'CN102082782B']"
+IN2013MU01253A,Patent IN2013MU01253A ,IN,2015-04-17,"Disclosed is a method and system for enabling an electronic reader embedded on e-learning system. The system comprises a Graphical User Interface (GUI) module, a receiving module, a capturing module, a generating module, a database and a communication module. The GUI module is configured to display a first content object on the electronic content reader to one or more users connected on the online e-learning platform. The receiving module is configured to receive an electronic input signal from a user to highlight a first sub-content object in the first content object. The capturing module is configured to capture first metadata associated with the first sub-content object. The generating module is configured to generate a second content object comprising the first sub-content highlighted based on the first metadata. The database is configured for storing the second content object. The communication module is configured to share the second content object to another user in real-time. To be published with Figure 2",G09B19/00,Teaching not covered by other main groups of this subclass,,,Manoj Kutty,"['US10523454B2', 'CN104732824A', 'US20150294582A1', 'US10275529B1', 'US9736311B1', 'KR101782802B1']","['US7779347B2', 'US20070298399A1', 'KR101443404B1', 'MY159361A', 'AU2010358550B2', 'US9645986B2', 'US9122666B2']","['US10523454B2', 'CN104732824A', 'US20150294582A1', 'US10275529B1', 'US9736311B1', 'KR101782802B1', 'US7779347B2', 'US20070298399A1', 'KR101443404B1', 'MY159361A', 'AU2010358550B2', 'US9645986B2', 'US9122666B2']",['CN104732824A'],[],['CN104732824A']
+IN2013CH01234A,Patent IN2013CH01234A ,IN,2015-08-21,The technique relates to a system and method for learning and learning oriented assessment of at least one learner based on a role to be performed by the at least one learner. This technique involves identifying knowledge areas related to a particular role to be performed by the learner. Under each knowledge area different learning workflows are identified and relevant topics are mapped to the learning workflows. The performance expectation from the learner at each learning workflow level is defined. The one more challenges related to the mapped topics are created and presented to the learner to solve and a score is generated for solving the challenges. This score is compared with the predefined performance expectation to determine the learning effectiveness of the learner and a capability index is computed for the learner. REF FIG: 1,G09B5/08,Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations,,,Beleyur Manjappa Subraya,['CN117556381B'],"['US6606480B1', 'CA2544324A1', 'US20090094528A1']","['CN117556381B', 'US6606480B1', 'CA2544324A1', 'US20090094528A1']",['CN117556381B'],[],['CN117556381B']
+IN2014DN08315A,Patent IN2014DN08315A ,IN,2015-05-15,A system for controlling the vanes of a variable geometry turbine supplying an internal combustion engine of a motor vehicle comprising a subtractor (5) capable of determining the deviation between a supercharging pressure setpoint and measurement a regulator (4) capable of transmitting an output control signal to the vanes of a variable geometry turbine a mapping (3) of the position of the vanes on the basis of the rotational speed of the engine and a torque set point a determination means (1) for determining the learning conditions capable of transmitting a control signal to a learning means (2) for learning the control which is capable of transmitting a correction to the control signal of the vanes on the basis of the signals of the mapping and of the regulator the means (2) for learning being capable of learning the prepositioning signals on receipt of a signal from the determination means (1).,F02D41/0007,Controlling intake air for control of turbo-charged or super-charged engines,,,Laurent Fontvieille,"['KR101878060B1', 'DE102017220404A1', 'FR3075406B1', 'US11168612B2']","['DE19751977C2', 'EP1322846B1', 'FR2831921B1', 'FR2872547B1', 'JP4468874B2', 'FR2902467A1', 'FR2911918B1', 'JP2009013873A', 'JP4853471B2', 'DE102008017164B3']","['KR101878060B1', 'DE102017220404A1', 'FR3075406B1', 'US11168612B2', 'DE19751977C2', 'EP1322846B1', 'FR2831921B1', 'FR2872547B1', 'JP4468874B2', 'FR2902467A1', 'FR2911918B1', 'JP2009013873A', 'JP4853471B2', 'DE102008017164B3']",[],[],[]
+IN201911002734A,Patent IN201911002734A ,IN,2020-08-28,,,,,,S. Zode Sandeep,['WO2022231998A1'],[],['WO2022231998A1'],[],[],[]
+IN2009CH01365A,Patent IN2009CH01365A ,IN,2015-10-02,"The present invention provides a method and system for preventing MAC address learning in Provider Backbone Bridge Network (PBBN). In one embodiment, this is accomplished by receiving data frames from at least one operator/client at the first PBB network which has to be communicating to the second PBB network, adding forward path learning information from the received data frames in the first PBB network and translating backbone MAC source address of the received data frame at the first PBB network by replacing the backbone MAC source address with a BEB backbone MAC address, thereby preventing of backbone MAC address learning of the first PBB network in the second PBB network. Figure 3",H04L12/4625,"Single bridge functionality, e.g. connection of two networks over a single bridge",,,Kumar Madaiah Vinod,['CN102801625B'],"['CN101123570B', 'US8619784B2', 'US8751683B2', 'US20080281987A1', 'US7886080B2', 'US7697534B1']","['CN102801625B', 'CN101123570B', 'US8619784B2', 'US8751683B2', 'US20080281987A1', 'US7886080B2', 'US7697534B1']",['CN102801625B'],['CN101123570B'],"['CN102801625B', 'CN101123570B']"
+IN2015DN02931A,Patent IN2015DN02931A ,IN,2015-09-18,A learning aid including a series of symbols and movable portions. Each of the movable portions is associated with at least one of the symbols and is movable by hand from a first position to a second position to select at least one of the symbols.,G09B1/06,"Manually or mechanically operated educational appliances using elements forming, or bearing, symbols, signs, pictures, or the like which are arranged or adapted to be arranged in one or more particular ways and having a support carrying or adapted to carry the elements the elements each bearing a single symbol or a single combination of symbols and being attachable to, or mounted on, the support",,,John Exton,"['CN110718099A', 'US20220023150A1', 'US20220327944A1']","['US2770209A', 'US576017A', 'US2541423A', 'US797800A', 'US1489028A', 'US1803265A', 'US2987827A', 'US3349202A', 'US3456948A', 'US3694932A', 'GB1407899A', 'IL44054A', 'DE3202609A1', 'US4560354A', 'US4793492A', 'CN2061315U', 'US5311834A', 'US5391078A', 'US6264199B1', 'US6884077B2', 'US6964110B2', 'US20040251165A1', 'CN2828967Y', 'US7534106B1', 'US7771200B2', 'US7828553B2', 'CN101409164A', 'GB2458652A', 'WO2012017397A2', 'CN201824665U', 'US8438744B1']","['CN110718099A', 'US20220023150A1', 'US20220327944A1', 'US2770209A', 'US576017A', 'US2541423A', 'US797800A', 'US1489028A', 'US1803265A', 'US2987827A', 'US3349202A', 'US3456948A', 'US3694932A', 'GB1407899A', 'IL44054A', 'DE3202609A1', 'US4560354A', 'US4793492A', 'CN2061315U', 'US5311834A', 'US5391078A', 'US6264199B1', 'US6884077B2', 'US6964110B2', 'US20040251165A1', 'CN2828967Y', 'US7534106B1', 'US7771200B2', 'US7828553B2', 'CN101409164A', 'GB2458652A', 'WO2012017397A2', 'CN201824665U', 'US8438744B1']",['CN110718099A'],"['CN2061315U', 'CN2828967Y', 'CN101409164A', 'CN201824665U']","['CN110718099A', 'CN2061315U', 'CN2828967Y', 'CN101409164A', 'CN201824665U']"
+IN2014CH00346A,Patent IN2014CH00346A ,IN,2015-04-03,A method of rotating an original image includes performing a self-learning using addresses related to at least one page miss and generating address generation rules using a result of the self-learning. The method includes pre-fetching the original image from a memory device based on the address generation rules to obtain a pre-fetched image and generating a rotated image using the pre-fetched image. Figure 20,G06T3/60,Rotation of whole images or parts thereof,,,Min Woo Song,"['US9727797B2', 'JP6402432B2', 'US11429301B2', 'CN113539159B']","['US4943908A', 'US5305389A', 'JPH07325753A', 'US5793901A', 'US6226016B1', 'JPH10208031A', 'CA2252751C', 'US6633968B2', 'JP2001103292A', 'US6560693B1', 'JP2004072600A', 'US7376286B2', 'JP4123368B2', 'US20050275665A1', 'JP4531484B2', 'JP2006301724A', 'US7876977B2', 'DE102007035204A1', 'US7971253B1', 'JP2010086008A', 'US8195917B2', 'CN101719104B', 'US9081501B2', 'TWI426465B', 'KR101766833B1', 'KR101872430B1', 'US8797359B2']","['US9727797B2', 'JP6402432B2', 'US11429301B2', 'CN113539159B', 'US4943908A', 'US5305389A', 'JPH07325753A', 'US5793901A', 'US6226016B1', 'JPH10208031A', 'CA2252751C', 'US6633968B2', 'JP2001103292A', 'US6560693B1', 'JP2004072600A', 'US7376286B2', 'JP4123368B2', 'US20050275665A1', 'JP4531484B2', 'JP2006301724A', 'US7876977B2', 'DE102007035204A1', 'US7971253B1', 'JP2010086008A', 'US8195917B2', 'CN101719104B', 'US9081501B2', 'TWI426465B', 'KR101766833B1', 'KR101872430B1', 'US8797359B2']",['CN113539159B'],['CN101719104B'],"['CN113539159B', 'CN101719104B']"
+IN2015MU03578A,Patent IN2015MU03578A ,IN,2015-10-02,"Blackboards are used as one of the oldest teaching device in the world but with the modifications in the technology whiteboards are invented for eliminating the diseases caused by chalk powder. Now-a-days Whiteboards are used in most of the educational Institutes. Large size whiteboards give advantage of using more area for writing purpose but on the contradictory it is time consuming to nib the boards. Different methods of cleaning the boards have been developed. This led to the invention of self-cleaning whiteboards. Hence, many approaches are introduced to clean the board automatically. An attempt has been made to modify the features of automated motorized whiteboard by introducing a duster detaching mechanism. Due to this mechanism teacher can use the writings on the board as a future reference. The system consists of many small parts and mechanisms which are used efficiently for the working of the board. Some of them are: - Flexible whiteboard surface material, dusters, plastic rollers, cam and follower, four bar mechanism and motors. The working of this system is based on rotation of flexible whiteboard sheet material around the rollers. Rollers are operated by means of motors. In this way the whiteboard surface gets cleaned automatically by the dusters fixed on the backside of the board. If anyone wants to use writing for future reference then cam follower and four bar mechanism is used to detach the dusters from whiteboard. In addition to this a stand is designed to adjust the height of the board and also to make it portable. 	PARTS	SPECIFICATIONS/ DIMENSIONS 1.	DC Gear motor	Speed-lOORPM Voltage-4V to 12V Stall torque-42.5 IKg-cm Stall current-6.9Amp Gear assembly-Spur Shaft length-25 to 30mm Shaft diameter-8mm 2.	Wooden Block (Covered with sunmica sheet)	Length-80cm Height-50cm Breadth-5cm 3.	Rollers (PVC Pl astic)	Diameter-5cm Height-40cm 4.	Duster holders  (Plywood)	C Shaped Height-65cm Breadth-10cm Width-10cm Thickness-1.2cm 5.	Dusters (Sponge)		1st pa ttern	2nd pattern	3rd pattern Length Breadth	28cm  3 cm	14cm 3cm	40cm 3cm 6.	AC to DC Converter	Voltage-12V Current-3A 7.	White board surface	Length- 19 Breadth-40	2cm cm 8. Cam and followers Outer   diameter- 6 cm Inner diameter- 3 cm Type- Tangent cam 9. Springs	Mean diameter - 20 mm Coil diameter - 1 mm 10. Stand	Cross sections: 1.	2.56 cm 2.	3.175 cm 3.	3.81 cm",,,,,Bhushan Tukaram Chougule,['CN112009145A'],[],['CN112009145A'],['CN112009145A'],[],['CN112009145A']
+IN2014CH00582A,Patent IN2014CH00582A ,IN,2015-08-14,"ABSTRACT According to the present disclosure, an extended range electric vehicle comprises a hybrid electric vehicle controller, fixed gear ratio transmission, motor controller, battery management controller, dashboard display, engine management controller and graphic user interface. According to yet another aspect, the extended range electric vehicle is driven only by electric traction and the internal combustion engine (ICE) generates power to power the electric drive system/electric drive motor. According to yet another aspect, a battery management unit monitors the SOC of the battery and if the battery capacity is less than the defined minimum threshold, the internal combustion engine of the extended range electric vehicle is switched ON and the internal combustion engine operates at a constant speed where it is most efficient. According to yet another aspect, the internal combustion engine operating at a speed of efficient operation drives an electric generator, in turn the electric motor as well as charges the battery by distributing the power. The power is distributed depending on the power demand of the electric motor/ electric drive motor. According to yet another aspect, if the SOC of the battery is less than the minimum threshold, the internal combustion engine (ICE) charges the battery by recharging it only in a situation when power requested by the electric drive motor is less than the power produced by ICE and the electric generator together.",,,,,C Meti Ashok,['CN112896144A'],[],['CN112896144A'],['CN112896144A'],[],['CN112896144A']
+IN2015DN02007A,Patent IN2015DN02007A ,IN,2015-08-14,The present invention reduces the number of entries retained in a communication node in a centralized control network and reduces the load on a control device. A communication node is provided with: a first table for storing a first entry in which a match condition that includes at least a destination address is associated with the output destination of a packet compatible with the match condition; a second table for storing a second entry having a prescribed match condition; a destination learning unit for recording a group composed of a transmission source and an inbound port of an inbound packet as a match condition and an output destination respectively of the first table; and a packet processing unit for transferring a packet to the output destination determined in the first table when entries having a match condition compatible with the inbound packet are found respectively from the first and second tables. The packet processing unit broadcasts the inbound packet according to a third entry when the entry having the match condition compatible with the inbound packet is not found.,H04L45/745,Address table lookup; Address filtering,,,Masanori Takashima,"['ES2628094T3', 'JP6369532B2', 'JP6369175B2', 'US10848420B2']","['KR100559979B1', 'US20050141537A1', 'US7801125B2', 'JP4481147B2', 'US8565124B2', 'US8116312B2', 'US8098677B1', 'US8971339B2', 'JP5446040B2', 'WO2011087085A1', 'JP5651970B2', 'WO2011144495A1', 'US8391289B1', 'KR101414753B1', 'US8873398B2', 'US8804490B2', 'US9288555B2', 'US8971338B2', 'CN102594664B', 'US8705536B2', 'US9143557B2', 'US9036638B2', 'US9071529B2']","['ES2628094T3', 'JP6369532B2', 'JP6369175B2', 'US10848420B2', 'KR100559979B1', 'US20050141537A1', 'US7801125B2', 'JP4481147B2', 'US8565124B2', 'US8116312B2', 'US8098677B1', 'US8971339B2', 'JP5446040B2', 'WO2011087085A1', 'JP5651970B2', 'WO2011144495A1', 'US8391289B1', 'KR101414753B1', 'US8873398B2', 'US8804490B2', 'US9288555B2', 'US8971338B2', 'CN102594664B', 'US8705536B2', 'US9143557B2', 'US9036638B2', 'US9071529B2']",[],['CN102594664B'],['CN102594664B']
+IN2014DN03172A,Patent IN2014DN03172A ,IN,2015-05-22,The invention relates to a method for learning and determining a minimum injector specific electric actuation duration for at least one injection valve of an internal combustion engine of a motor vehicle. Starting with a specified electric actuation duration which definitely does not lead to an injection the electric actuation durations are increased stepwise in each motor stopping process and/or in each motor starting process in successive stopping processes and/or in successive starting processes of the internal combustion engine up to an actuation duration with which an injection with a combustion occurs and then said actuation duration can be determined as the minimum electric actuation duration. The invention further relates to a corresponding device.,F02D41/1402,Adaptive control,,,Udo Schulz,"['DE102012210937A1', 'KR101664626B1', 'DE102015212085B4', 'DE102019004797A1', 'FR3106858B1']","['JPS60190637A', 'GB9810726D0', 'JP2000227041A', 'DE19945618B4', 'ES2232796T3', 'DE10229019A1', 'DE10254844A1', 'US6964261B2', 'DE102004006297B4', 'DE102005051701A1', 'DE102006015967A1', 'DE102007015654B4', 'JP4428405B2', 'JP4501974B2', 'US7558665B1', 'US8306723B2', 'DE102009028650B4', 'US8347862B2', 'DE102012217121B4', 'FR3013392B1']","['DE102012210937A1', 'KR101664626B1', 'DE102015212085B4', 'DE102019004797A1', 'FR3106858B1', 'JPS60190637A', 'GB9810726D0', 'JP2000227041A', 'DE19945618B4', 'ES2232796T3', 'DE10229019A1', 'DE10254844A1', 'US6964261B2', 'DE102004006297B4', 'DE102005051701A1', 'DE102006015967A1', 'DE102007015654B4', 'JP4428405B2', 'JP4501974B2', 'US7558665B1', 'US8306723B2', 'DE102009028650B4', 'US8347862B2', 'DE102012217121B4', 'FR3013392B1']",[],[],[]
+IN2013CH05503A,Patent IN2013CH05503A ,IN,2015-06-12,"The present invention illustrates a social learning and exploration platform to learn about both specific and everyday concepts by exploring an organized collection of multiple flips or media, called flips. Users of the system have the ability to explore a number of categories of content, create and s to assimilate curated content across those categories, define sets of questions and explore concepts with flips. The system invites crowdsourced perspectives on any concept and expands anyone's search query through invited or crowd sourced collaboration (gain exposure to new facets of a concept through collaborative set creation). Figure 1",H04L65/403,"Arrangements for multi-party communication, e.g. for conferences",,,Kalyanaraman Raghava,"['CN106161656B', 'CN107391584B', 'CN111523036B']","['US7546549B2', 'US8806331B2', 'US8082486B1', 'US20140040712A1', 'US20140372910A1']","['CN106161656B', 'CN107391584B', 'CN111523036B', 'US7546549B2', 'US8806331B2', 'US8082486B1', 'US20140040712A1', 'US20140372910A1']","['CN106161656B', 'CN107391584B', 'CN111523036B']",[],"['CN106161656B', 'CN107391584B', 'CN111523036B']"
+IN2015MU02225A,Intelligent extraction system for classification of documents in online text repositories ,IN,2015-06-19,"An intelligent extraction system (herein after called as system) for classification of extracted documents in online text repositories which includes various methods and processes are provided herein. The system has designed to accept semi-structured or unstructured documents from the domain news web pages and transformed them into a structured form. The designed system is domain independent and flexible to employ on different structures. It contributes in designed Knowledge Extraction System (KES) useful for automatically extracting and storing most important keywords (Knowledge) relevant to the specified subject/ topic which could be served as a knowledge base for identification and classification of documents during web page extraction phase. It also contributes in designed core module that works on documents in plain text form, which can be applied to the documents with different formats (i.e. doc, docx, pdf etc) that can be easily transformed into plain text form. The core model includes devised module for identification and classification of relevant and irrelevant documents in the set of collected documents and knowledge distillation to add new knowledge to the knowledge base. Thus the designed system works as an intelligent learning system that gains knowledge after every performance, and improves the accuracy of the system.",,,,,Sandeep Ramchandra Sirsat,['CN108280513A'],[],['CN108280513A'],['CN108280513A'],[],['CN108280513A']
+IN2013MU03302A,Patent IN2013MU03302A ,IN,2015-07-17,"Disclosed is a system and method for providing data required for resolving a query. A data receiving module may receive a dataset captured by a plurality of sensors. A logic manager module may create a space for storing the dataset in a window of a plurality of windows. The logic manager module may further receive the query from a user. In one aspect, the query may either be registered query or an ad-hoc query. A window manager module may determine the data based upon the query. The window manager module may further resize the window when the query is the registered query. A learning module may select a maximum size window having a maximum size amongst the plurality of windows when the query is the ad-hoc query. A data facilitating module may provide the data in order to resolve the query.",G06F16/24564,Applying rules; Deductive queries,,,Snehasis Banerjee,"['CN106909603A', 'US20240143674A1']","['BR0014954A', 'US7072973B1', 'US8332526B2', 'US9524355B2', 'US20080209048A1', 'US8180801B2', 'US8433716B2', 'US8751495B2', 'US8788484B2', 'US9275102B2', 'US9563663B2']","['CN106909603A', 'US20240143674A1', 'BR0014954A', 'US7072973B1', 'US8332526B2', 'US9524355B2', 'US20080209048A1', 'US8180801B2', 'US8433716B2', 'US8751495B2', 'US8788484B2', 'US9275102B2', 'US9563663B2']",['CN106909603A'],['BR0014954A'],"['CN106909603A', 'BR0014954A']"
+IN2015DN04195A,Patent IN2015DN04195A ,IN,2015-10-16,A method in a host arrangement for communicating with a terminal connected to an IP communication network. The arrangement comprises at least two hosts one operating as active host and the remaining at least one host operating as backup host(s). The arrangement is connected to the IP communication network by means of a switch wherein each host of the arrangement is connected to the switch by means of an individual link the active host being associated with an IP and a MAC address. The method comprises detecting (110) a link failure between the active host and the switch or a malfunction of the active host; and determining (120) a backup host to takeover. The method comprises associating (130) the IP and the MAC address of the active host to the determined backup host to take over; and triggering (140) a MAC learning process in the switch.,H04L61/103,"Mapping addresses of different types across network layers, e.g. resolution of network layer into physical layer addresses or address resolution protocol [ARP]",,,Per Wollbrand,"['EP2882169B1', 'US10362631B2', 'US11171861B2']","['JPH1011369A', 'AU7149498A', 'US6094416A', 'US6971044B2', 'US7159234B1', 'EP1763204B1', 'JP4620639B2', 'US7898941B2', 'JP4811489B2']","['EP2882169B1', 'US10362631B2', 'US11171861B2', 'JPH1011369A', 'AU7149498A', 'US6094416A', 'US6971044B2', 'US7159234B1', 'EP1763204B1', 'JP4620639B2', 'US7898941B2', 'JP4811489B2']",[],[],[]
+IN2013MU02299A,Patent IN2013MU02299A ,IN,2015-09-25,"A method and system for enhancing interactive online learning technology. In one embodiment, the document transformation module transforms the input document in an extensible markup language (XML) format. The document parser module parses the input document transformed using an extensible style sheet language transformation (XSLT). The navigation file creation module creates a navigation order between a plurality of content in the input document parsed, wherein the navigation order is created to describe a relative path between the contents. The asset file creation module creates an asset file, wherein the asset file is created based on the relative path between the contents. The tagging module tags the contents in the input document transformed. The repository stores the input document transformed comprising: the navigation order, the asset file and the tags, in a repository and the interface enables a user to communicate with other user on the system using the stored document.",G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Manoj Kutty,"['US20150324438A1', 'US10922476B1', 'US11853311B2']","['US20040015813A1', 'US20020010715A1', 'US20050204337A1', 'US20040153968A1', 'US20050165726A1', 'US7836063B2', 'US20050287509A1', 'BRPI1000577B1']","['US20150324438A1', 'US10922476B1', 'US11853311B2', 'US20040015813A1', 'US20020010715A1', 'US20050204337A1', 'US20040153968A1', 'US20050165726A1', 'US7836063B2', 'US20050287509A1', 'BRPI1000577B1']",[],['BRPI1000577B1'],['BRPI1000577B1']
+IN2015CH03743A,Patent IN2015CH03743A ,IN,2015-07-31,"This invention relates to the field of Information and Communication Technology. Aprocess and method where the status of each class like lecturer name, room number, topic covered, time when attendance taken, students absent etc be made available @ real-time (period wise) to all the stakeholders in the education space (viz, Principal, Staff, Students and Parents) either on their mobile phones or web or on any display screen. We call this as a 'Real-Time Campus Dashboard'. Our goal is to leverage mobile technology to bring in the much needed transparency and accountability in the education space to improve the quality of life.",,,,,S Talya Vidyadhara,[],[],[],[],[],[]
+IN151496B,Patent IN151496B ,IN,1983-05-07,,,,,,Chamanlal Jagannath Shishoo,"['US9938300B2', 'US10351571B2', 'US10377767B2', 'US10377760B2', 'US10508098B2']",[],"['US9938300B2', 'US10351571B2', 'US10377767B2', 'US10377760B2', 'US10508098B2']",[],[],[]
+IN2014CH00017A,Patent IN2014CH00017A ,IN,2015-07-10,"Abstract According to another aspect of the present disclosure, DBaaS may be effectively utilized achieving multi-tenancy, elastic scalability and access control. According to an aspect of the present disclosure, a large block of data may be retrieved from the client side, utilizing the Information retrieval algorithm. According to another aspect of the present disclosure, fit for purpose approach is demonstrated by providing an Education Solution that takes inputs from local educational institutions and utilizes the global best practices adopted by leading international universities.",,,,,Taj Nousheen,[],[],[],[],[],[]
+IN2015KO00749A,Patent IN2015KO00749A ,IN,2015-08-07,"The present invention relates to a smart interactive teaching aid having customized teaching information useful for improved learning capability. More specifically, the device helps the student in real-time scenarios by review, practice exams, educational games and other related activities that will automatically be recorded in the device for further preview. Further, the invention provides more interactive learning rather than routine knowledge dissemination using a smart & advanced interactive learning device.",,,,,Pani Dr Prajna,[],[],[],[],[],[]
+IN2013MU02437A,Patent IN2013MU02437A ,IN,2015-06-19,"Abstract: Disclosed herein is a cost-effective, environmentally benign, one pot catalytic process for synthesis of a, ß-unsaturated carboxylic acids (2) and esters (2') with high E-stereoselectivity from derivatives of cyclic 1, 3-diesters (Meldrum’s esters) (1) using a highly efficient catalytic protocols containing FeCl3.6H2O (cat.), H2O (1 equiv.) and FeCl3.6H2O (cat.), alcohol (R2-OH, 1 equiv.) in CH3NO2 respectively under microwave irradiation as well as under conventional heating conditions with better turnover number (TON) and turnover frequency (TOF) values.",,,,,Ramakrishna Gopalkrishna Bhat,[],[],[],[],[],[]
+IN2013CH04808A,Patent IN2013CH04808A ,IN,2015-09-18,"The wearable device comprises a plurality of sensors, a microprocessor, a wireless communication module and a miniature power supply. The plurality of sensors comprises a galvanic skin response (GSR) sensor and a pulse sensor. The galvanic skin response (GSR) sensor comprises a resistance measurement circuit, a low pass RC filter, a pair of electrodes and a conductive gel. The resistance measurement circuit is a Wheatstone bridge circuit with the three arms of known resistance and a fourth arm is kept open. The pair of electrodes with skin contact acts as resistor in the fourth arm. The pulse sensor comprises a pair of light emitting diodes and a pair of light collecting sensors. The plurality of sensors is connected to the microprocessor. The wireless communication module receives data from the microprocessor, encodes it and transmits it to a remote computing device.",,,,,Niranjan Krupa Dr B,[],[],[],[],[],[]
+IN2015KO00989A,Patent IN2015KO00989A ,IN,2015-09-25,"This invention relates to a process of preparing oxide thin film from sol gel solution on different substrates and in particular, this invention relates to a process of preparing oxide thin film wherein single dip and uniform coating is needed to grow a thin film. More particularly, this present invention relates to an apparatus for preparing oxide thin film. Furthermore, this invention also relates to an apparatus for preparing oxide thin film by thermo-magnetic chemically wet and dry (CWD) technique i.e. in-situ thermal annealing facility in presence of magnetic field for spintrOnics/optoelectronics and different sensor applications.",,,,,Kumar Kamilla Dr Sushanta,[],[],[],[],[],[]
+IN2014DE00338A,Patent IN2014DE00338A ,IN,2015-08-07,"The present invention provides an improved catalytic process for the synthesis of dibenzo[1,3]diazepines by coupling of amines with aldehydes in the presence of metal nanoparticles as catalyst. The process has certain advantages as this method involves a single step preparation, fast reaction rate, clean reaction with high product yield and also the method has advantage of reusability of the catalytic system.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2014CH00209A,Patent IN2014CH00209A ,IN,2015-07-31,,,,,,Suresh R,[],[],[],[],[],[]
+IN2014DE00010A,Patent IN2014DE00010A ,IN,2015-07-10,"The present invention provides a novel solid self-emulsifying formulation comprising tamoxifen in combination with antioxidant such as quercetin, a solid carrier, an oily phase, a surfactant and a co-surfactant. The developed formulation showed enhanced oral bioavailability, improved breast tumor efficacy and reduced the hepatotoxicity.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2014CH00016A,Patent IN2014CH00016A ,IN,2015-07-10,"To avoid drawbacks like addition of payload, to increase robustness against re-encoding and some common watermarking attacks and to provide a more efficient H.264 compression domain watermarking, a new watermarking scheme is introduced. A new watermark embedding and extraction method is introduced where one ac co-efficient of one macroblock is modified to embed a single watermark bit. The watermark is a readable watermark in the quantized ac coefficients of I frames wherein the original video is necessary to calculate the parameter of visual model enhancing the security of the watermark considerably. It is shown that video quality degradation is comparatively less and better than previously available.",,,,,B Sathisha,[],[],[],[],[],[]
+IN2014CH00002A,Patent IN2014CH00002A ,IN,2015-07-03,"According to an aspect of the present disclosure, the electronic controlling system is designed and developed to control areca leaf nut pressing machine. The control system is designed to get the molds at a desired temperature and time set by the operator. The control system is capable to maintain customized temperature and time required for the pressing process. On the other hand, the control unit provides input switches for operators to set required time, temperature and a LCD display system for reference. According to yet another aspect of present invention, the automation control system includes sensing and controlling of mould temperature by the control unit and pressing the leaves for the required time. According to yet another aspect of present invention, the automation includes opening and closing of upper mould as per the process requirement using geared DC motor.",,,,,Raveesh S,[],[],[],[],[],[]
+IN2013DE03832A,Patent IN2013DE03832A ,IN,2015-07-03,The present invention relates to a solar tracking system. More particularly the present invention relates to a self-positioning solar tracking system using sequenced latching that uses small perturbation techniques. The system includes a solar panel mounted over a rectangular frame. The system may further include a plurality of photodiodes comprising a first photodiode for the flow of current in control circuit of the system and a second photodiode to keep the frame perpendicular to the sun. The system may further include a plurality of lead screw motors arranged at center of the four edges of the frame in order to move the frame keeping the frame perpendicular to the sun.,,,,,Kumar Nandy Biplob,[],[],[],[],[],[]
+IN2013DE03558A,Patent IN2013DE03558A ,IN,2015-06-12,"The present invention relates to the design and development of a suitable nanocarrier capable of improving the oral bioavailability of various difficult-to-deliver drugs such as anticancer agents, polyene antibiotics, antioxidants categorized as BCS class II, III or IV. More importantly, the developed LCNPs were lyophilized using step wise freeze drying cycle for improving the long term stability. The invention relates to the design and development of a suitable nanocarrier capable of improving the oral bioavailability of various difficult-to-deliver drugs such as anticancer agents, polyene antibiotics, antioxidants categorized as BCS class II, III or IV. Particularly, the developed nanocarrier system, i.e. Liquid crystalline nanoparticles (LCNPs) is suitable for oral route of administration, poses enhanced stability in simulated gastrointestinal fluids, long term stability at accelerated conditions of temperature and humidity as per ICH guidelines, increased oral bioavailability, therapeutic efficacy and safety profile as compared to clinical formulations",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013DE03500A,Patent IN2013DE03500A ,IN,2015-06-12,"The present invention provides an improved, eco-friendly and catalyst free process for selective synthesis of xanthenes-1,8(2H)-diones and analogues thereof of the general formula (A) from the cyclocondensation of aldehyde (I) with 1,3 diketone (II) in under milder reaction conditions",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013CH05438A,Patent IN2013CH05438A ,IN,2015-05-29,"In one embodiment of the present disclosure, a control system is designed to control flame in a gas stove. The control system is consisting of a microcontroller/microprocessor to control its peripherals and the peripherals may include a GSM module, a stepper motor, a load cell, a gas sensor, a database, an input device and an output device. In another embodiment of the present disclosure, the GSM module enables to control the gas stove using a mobile device. According to an aspect of the present disclosure, the microcontroller is configured to provide three modes of operation such as automatic mode, auto-intelligent mode and remote controlled mode. According to another aspect of the present disclosure, auto-intelligent mode supports pre configured cooking timings which are stored in the database.",,,,,N Shashikala B,[],[],[],[],[],[]
+IN2013CH05060A,Patent IN2013CH05060A ,IN,2015-05-29,"Abstract According to an aspect of the present disclosure, the successful storage and retrieval of the data is achieved with high reliability in terms of higher level of security of IDA with AONT-RS encoding. Along with this AONT-RS encoding it also ensured that this level of security is achieved with lower additional requirement of computational and storage costs, as shown in the data storage requirement, which is less than twice the size of the original data. This method with the apparatus used also ensures data storage is reliable in case of server unavailability and failure scenario. Also, demonstrated that the higher security on the data stored or dispersal is achieved without relying on encryption keys, which, otherwise need to be stored and retrieved explicit to the method and apparatus in use.",,,,,R Prasanna Kumar K,[],[],[],[],[],[]
+IN2013CH05061A,Patent IN2013CH05061A ,IN,2015-05-29,,,,,,V Sreenivas Rao K,[],[],[],[],[],[]
+IN2012DE00731A,Patent IN2012DE00731A ,IN,2015-08-21,The present invention envisages the development of Curcumin-Drug conjugates with an aim of improving the bioavailability of Curcumin with simultaneous synergistic activity and possible decrease in dose and the toxicity of conjugating drug.,,,,,Kumar Jain Sandeep,[],[],[],[],[],[]
+IN2012DE02071A,Patent IN2012DE02071A ,IN,2015-08-14,"The present invention provides a widely applicable, efficient and green chemical process for the synthesis of ß-hydroxy aryl ethers by the reaction of phenol with epoxide in the presence of metal nanoparticles as catalysts. The process of the present invention, which involves metal nanoparticle catalysed epoxide ring opening by phenols can be extended to a broad range of drugs with varied applications like treatment of cold and cough, as muscle relaxants, as cardiovascular drugs.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2012DE00955A,Patent IN2012DE00955A ,IN,2015-09-11,The present invention provides ß-carboline compounds. The present invention also provides of method of preparing ß-carboline compound of formula and their use as potent anti-leishmanial agent. A series of ß-carboline-compounds were synthesized and tested in vitro against promastigotes of Leishmania donovani. The synthesized compounds show promising anti-leishmanial activity,,,,,Gohil Vikrantsingh,[],[],[],[],[],[]
+IN2013DE00226A,Patent IN2013DE00226A ,IN,2015-06-19,The present invention relates to the field of chemical science and specifically this invention provides the eco-friendly approach for the synthesis of tetrahydropyridines (THPs) via multi component approach. The catalytic application of sodium dioctyl sulfosuccinate (SDOSS) in an aqueous media has been demonstrated by exploring efficient and green approach for acquiring functionalized piperidine under environment friendly milder reaction condition.,,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013DE00378A,Patent IN2013DE00378A ,IN,2015-06-19,"The present invention provides a method for the generation of novel random gene libraries sequences in the size range of 200-30,000 base pairs without a DNA template, using a novel 25-base single stranded oligonucleotide. The sizes obtained in the present invention are 10-100 folds higher than those described in prior art.",,,,,Mohan Utpal,[],[],[],[],[],[]
+IN2013DE00680A,Patent IN2013DE00680A ,IN,2015-06-26,"The present invention provides a nanoformulation comprising folic acid functionalized liquid crystalline nanoparticles for delivery of anti-cancer agents and a process for preparing the same. The LCNPs were prepared by hydrotrope method with suitable co-solvent and a biphasic drug release pattern was observed from developed formulation. The developed nanoformulation resulted in increased antitumor efficacy, longer circulation half-life and higher safety profile for Docetaxel, a model anti-cancer agent.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013DE00762A,Patent IN2013DE00762A ,IN,2015-06-26,"The present invention relates to an oral self-emulsifying formulation comprising CyA and Vitamin E TPGS as an antioxidant. The present invention formulation provides enhance oral bioavailability and reduced nephrotoxicity induced by CyA. The formulation provides 4.46 times oral bioavailability compared with free CyA and 1.46 times compared to marketed CyA formulation (Bioral®). The present formulation is easy to prepare, cheap, stable at accelerated stability and freeze thaw conditions. Also, the formulation provides high level of manufacturing scalability and industrial adaptability.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013MU00922A,Patent IN2013MU00922A ,IN,2015-06-05,Disclosed herein is a product composed of natural essential oils or aroma chemicals and polymers useful for reducing the malodour of garbage and to simultaneously degrades the waste. The product of the invention masks the malodour and simultaneously degrades the waste which can be seen in the form of reduction in the mass of the product.,,,,,Renuka Thergaonkar,[],[],[],[],[],[]
+IN2013MU01341A,Patent IN2013MU01341A ,IN,2015-04-10,The present invention relates to an orally disintegrating tablet comprising a therapeutically effective amount of methylxanthine derivative provided in a sustained release dosage form and a therapeutically effective amount of an antihistamine selected from second generation and third-generation histamine HI receptor antagonist in an immediate release form The invention also provides process of preparation of orally disintegrating tablet.,,,,,Supriya Dr Shidhaye,[],[],[],[],[],[]
+IN2013DE01177A,Patent IN2013DE01177A ,IN,2015-06-26,"The present invention is directed to an improved catalytic process for the synthesis of dihydrobenzothiazepine by the cyclocondensation of ?, ? unsaturated carbonyl compound with o-aminothiophenol in the presence of catalytic amount of ionic liquid as an organo catalyst which does not necessitate any oxidizing agent as well as additional organic solvent as a reaction media.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013CH02586A,Patent IN2013CH02586A ,IN,2015-10-02,"1. A monosaccharide compound of the general formula 1 wherein 'm' is from 1 to 3, 'x'isOH, SH, orNH2, alkyne motif can be at any carbon (C i to C 6 ) on the sugar scaffold , sugar can be a pentose sugar or hexose sugar and can be in in furanose or pyranose form 2. A polysaccharide compound of the general formula 2 comprising repeating units of formula 1 as claimed in claim 1 wherein 'm' is from 1 to 3, 'n' is the number of repeating units and is from 2 to about 5,000., 'x' is OH, SH or NH2, alkyne motif can be at any carbon (C 1 to C 6 ) on the sugar scaffold. 3. A polysaccharide compound as claimed in claim 2, wherein the polysaccharide is preferably 1,4-triazolyl-linked polygalactose .",,,,,Meethaleveetil Sureshan Kana,[],[],[],[],[],[]
+IN2013CH04734A,Patent IN2013CH04734A ,IN,2015-04-24,"ABSTRACT According to an aspect of the present disclosure, alcohol sensor is configured in a vehicle to sense the alcohol content of the driver. The metal sensor is used along with alcohol sensor to detect the presence of key inside the vehicle. Also, whenever, metal sensor, alcohol sensor senses the key and the alcohol, a microcontroller displays a message on a screen. According to another aspect of the present disclosure, when alcohol content is detected, the microcontroller turns OFF the vehicle ignition. Also, the buzzer is turned ON, to alert the driver. According to the yet another aspect to the present disclosure, the GPS module is used as a receiver to locate the position of the vehicle. On the other hand, the GSM modem sends a message to a set of pre-specified contacts. According to yet another aspect of the present invention, the microcontroller turns ON the fore indicator, back indicator, parking lights etc.",,,,,N Shashikala B,[],[],[],[],[],[]
+IN2013CH04733A,Patent IN2013CH04733A ,IN,2015-04-24,"ABSTRACT According to an aspect of the present disclosure, present location of a mobile device is extracted which adds to the tracking thereof. According to another aspect of the present disclosure, an embodiment is proposed to communicate and extract the location information from the mobile device comprising a GSM module, a microcontroller, a computer with interface and I/O devices. According to another aspect of the present disclosure GSM module is made use to communicate with the mobile device. According to another aspect of the present disclosure, a secured access is ensured to the embodiment using the concept of speech recognition where a spoken word in the database is used as a password. According to another aspect of the present disclosure, an application is developed and installed on the mobile device that collects the location information from the device.",,,,,N Swetha,[],[],[],[],[],[]
+IN2013CH04735A,Patent IN2013CH04735A ,IN,2015-07-31,"ABSTRACT According to an aspect of the present disclosure, an apparatus in the form of section of a pipe is used. Water is used as a liquid in the pipe. An injector pipe of comparably smaller diameter smaller diameter is connected tangentially to this pipe with respect to its radial cross-section. Forced exit of the water in the generator pipe into the container formed by the pipe results in creation of uniform circular motion into the column of water with-in it. This continuous force builds up a strong vertex at the open end of the pipe with higher suction rate or draw towards its cavity. Conventionally, applying rotational force at open ended surface itself creates a vortex. Two of these types of vortex generators are combined together in a mutually aiding direction. The resulting vortex has higher efficiency and resulting in with deeper cavity and suction force. In one embodiment, this mechanism is used to draw the objects, materials and/or contents out of the commode.",,,,,Gangadharaiah T,[],[],[],[],[],[]
+IN2013CH04607A,Patent IN2013CH04607A ,IN,2015-07-31,"ABSTRACT According to an aspect of the present disclosure, mechanical way of deploying a drag sail is proposed. According to another aspect of the present disclosure, telescope support structure (TSS) is used to provide stiffness or stiffness to the sail embodiment. Several embodiments are described below, with reference to diagrams of illustration. It should be understood that numerous specific details are set forth to provide a full understanding of the invention. One skilled in the relevant art, however, will readily recognize that embodiments may be practiced without one or more of the specific details, or with other methods, etc. In other instances, well-known structures or operations are not shown in detail to avoid obscuring the features of the invention.",,,,,shashank B,[],[],[],[],[],[]
+IN2013CH04517A,Patent IN2013CH04517A ,IN,2015-04-10,"Biscuits for health promotion, skill development and behaviour modification in autism were specially formulated with beneficial functional food ingredients and developed as a food supplement to address the problems of the autistic children. This biscuit has been designed to be gluten free, casein free, sugar free and additive free to be conducive for the development of the autistic children. The specific food ingredients present in the biscuit were aimed at producing improvement in their nutritional status, alleviate their atypical behaviours and enhance their functional skills. Nutritional status of the children was enhanced with better immunoglobulin levels. A significant improvement (p<0.05) was observed in the behaviour pattern and the functional skills of the autistic children who received the nutritional supplement in the form of biscuits. This food supplement could be used as an alternative therapy for the improvement of children with autism disability. It needs to be patented since it has a prospective market value.",,,,,V Alli Dr M,[],[],[],[],[],[]
+IN2013MU02513A,Patent IN2013MU02513A ,IN,2015-06-19,ABSTRACT: Disclosed herein is a process for separation of Semiconducting and Metallic Single Walled Carbon Nanotubes by optical excitations. The process of the present invention is devoid of chemical modification or physical process.,,,,,Harsh Chaturvedi,[],[],[],[],[],[]
+IN2013DE01819A,Patent IN2013DE01819A ,IN,2015-06-26,"A multipurpose dental patient drape has been proposed for expediting work in the operative by facilitating the work of dentist, dental-chair assistant as well as patient. The present invention proposes a patient drape having one or more means to hold dental instruments/equipment required during a clinical dentistry procedure. The drape also has a means at the distal end of the drape away from the hands of the dentist and the dental assistant for placing the patient’s personal belongings like mobile phone, car keys, sun-glasses etc. The drape proposed by the present invention augments clinical working environment in a sit-down or four-handed dental practice and thus expedites the working in the operative field for dentist, dental chair-side assistant and the patient.",,,,,Harpinder Singh Chawla,[],[],[],[],[],[]
+IN2015DE02587A,Patent IN2015DE02587A ,IN,2015-09-04,"Disclosed is a method and system for facilitating electronic learning for avoiding human errors within an organization. In one implementation the method comprises providing an access, to one or more users of an organization, to one or more electronic learning modules based on an identification credential. The method further comprises initiating the one or more electronic learning modules in a predefined sequence based upon predefined initialization criterion. Furthermore, the method comprises evaluating the one or more users based upon a final examination for the one or more initiated electronic learning modules. Subsequently, the method comprises delivering a completion certificate for each of the one or more electronic learning modules based on the evaluation.",,,,,Digant SINGH,[],[],[],[],[],[]
+IN2014MU01336A,Patent IN2014MU01336A ,IN,2015-10-16,"ABSTRACT The lack of semantics and personalization of web based e-Learning system is a most focused research area of today’s era. Social networking plays a vital role in the information sharing and knowledge distribution. Implementation of social networking concept to improve the e-learning system is very challenging aspect of today’s researcher. Social networking includes various online forums, blogs, social bookmarking, mobile and researcher’s social networking sits. The present invention relates to a system framework and methods is for providing e-learning, also referred to in the art, as computer based training, computer assisted instruction and technology supported learning, are known. Such applications and systems use content, for example, lectures textual notes, video and book chapters, which are delivered to users electronically. In order to describe the e-learning content, framework is associated with the content. Ontology based standards is one technology, which is conventionally used to define the relationships between entities on a conceptual level. Following invention is described in detail with the help of Figure 1 of sheet 1showsthe Generalize e-Learning Web Personalization Framework.",,,,,Gopal S Sakarkar Mr,[],[],[],[],[],[]
+IN2015CH04082A,Patent IN2015CH04082A ,IN,2015-09-25,"Learning is a two step process. So, as much as theoretical knowledge is important, knowledge about the practical implementation is also emphasized upon. And a very good example of this can be seen in the curriculum of the bachelor's degree program of our education system. Every student has to do at least one project either from their respective institutions or in collaboration with some external organization. Also, every student is assigned an internal project guide who supervises the project. A project is not a one man job. So, every project consists of at least two members, supervised by the same internal guide. Now, if these students do their project from an external organization, then balancing between the institution and the organization becomes hectic. This is where Project Feedback Management System comes into play. We have devised an automated web based application to facilitate the communication and feedback about the project between the students, and their respective internal guides. Our system has different functionalities which facilitates the interaction between the students and their internal guides. It provides different functionalities based on the type of user logged in. If the logged user is an internal guide, functionalities such as logging of a feedback, reviewing of a particular task, etc. At the same time if the logged user is a student, the functionalities are restricted to just viewing the task and clarifying their doubts.",,,,,Kumar Abhineet,[],[],[],[],[],[]
+IN2015DE03387A,Patent IN2015DE03387A ,IN,2017-04-28,,,,,,Unknown,[],[],[],[],[],[]
+IN2013CH04960A,Patent IN2013CH04960A ,IN,2015-05-29,"A wireless surgical loupe enables a user to use the wireless loupe to perform a procedure, transmit information acquired by the wireless loupe and display patient information on a wireless loupe display. The transmitted information is able to be used to aid the operating room procedure, enhance education and be recorded for later use.",,,,,Corporation Sony,[],[],[],[],[],[]
+IN192069B,Patent IN192069B ,IN,2004-02-14,,,,,,Shilpi Mittal,[],[],[],[],[],[]
+IN180023B,Patent IN180023B ,IN,1998-01-10,,,,,,Lodewyk Jacobus Mienie,[],[],[],[],[],[]
+IN138121B,Patent IN138121B ,IN,1975-12-20,,,,,,Unknown,[],[],[],[],[],[]
+IN155484B,Patent IN155484B ,IN,1985-02-09,,C12N7/00,Viruses; Bacteriophages; Compositions thereof; Preparation or purification thereof,,,Jose Leonardo Latorre,"['US5458889A', 'DE4211108A1', 'WO1996000504A1', 'SI3244920T1']",['GB894623A'],"['US5458889A', 'DE4211108A1', 'WO1996000504A1', 'SI3244920T1', 'GB894623A']",[],[],[]
+IN2014DN05011A,Patent IN2014DN05011A ,IN,2015-07-10,The present invention provides for methods and materials for diagnosing and treating neuromyelitis optica (NMO) and related disorders.,C07K16/18,"Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans",,,Vanda A Lennon,"['US7101679B2', 'US20070093673A1', 'JP4273235B2', 'US8889102B2', 'JP5117336B2', 'US9891219B2', 'GR1007341B', 'WO2011142901A1', 'DE102011011280A1', 'EP2699256B1', 'WO2013010003A1', 'US20140371132A1', 'JP6265119B2', 'WO2013177116A1', 'CN102898513B', 'US9588115B2', 'US20170080063A1', 'WO2016001030A1', 'CN104698190A', 'US10098935B2', 'WO2017197293A1', 'CN106318974A', 'KR101977843B1', 'WO2018190365A1', 'KR102089042B1', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']","['US37273A', 'US4708713A', 'US5258503A', 'US5614192A', 'US5214136A', 'US5218105A', 'US5741671A', 'US5324638A', 'DE4227695C1', 'US5676644A', 'WO1997017369A2', 'CA2352167A1', 'US20040014087A1', 'US6409726B1', 'US20030072737A1', 'US20040048253A1', 'US7251568B2', 'US6905827B2', 'US7026121B1', 'US20040115629A1', 'ATE336808T1', 'US7101679B2']","['US7101679B2', 'US20070093673A1', 'JP4273235B2', 'US8889102B2', 'JP5117336B2', 'US9891219B2', 'GR1007341B', 'WO2011142901A1', 'DE102011011280A1', 'EP2699256B1', 'WO2013010003A1', 'US20140371132A1', 'JP6265119B2', 'WO2013177116A1', 'CN102898513B', 'US9588115B2', 'US20170080063A1', 'WO2016001030A1', 'CN104698190A', 'US10098935B2', 'WO2017197293A1', 'CN106318974A', 'KR101977843B1', 'WO2018190365A1', 'KR102089042B1', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B', 'US37273A', 'US4708713A', 'US5258503A', 'US5614192A', 'US5214136A', 'US5218105A', 'US5741671A', 'US5324638A', 'DE4227695C1', 'US5676644A', 'WO1997017369A2', 'CA2352167A1', 'US20040014087A1', 'US6409726B1', 'US20030072737A1', 'US20040048253A1', 'US7251568B2', 'US6905827B2', 'US7026121B1', 'US20040115629A1', 'ATE336808T1', 'US7101679B2']","['CN102898513B', 'CN104698190A', 'CN106318974A', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']",[],"['CN102898513B', 'CN104698190A', 'CN106318974A', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']"
+IN2013MU03749A,Patent IN2013MU03749A ,IN,2015-07-31,"A system or scheme for reducing weight of school bag of students, said system is about rearranging the contents of books used by the students; in the said system it is proposed that the chapters of the books should not be arranged subject wise. It is proposed that the all the chapters from all the books of the standard syllabus should be divided in sections. One particular section should contained chapters from all subjects. For example if a student has to study four subjects with 12 chapters in each subject, it is proposed that there can be four sections. In each section three chapters of each book can be placed. Similarly the notebooks can also be rearranged. The notebooks can be prepared according to requirement in desired number of section. Each section of notebook contains required pages for particular subjects. In this case student has to carry only one section of books and one section of notebook to school. In case those chapters of particular subjects are finished and chapters of another particular subjects are unfinished student has to carry maximum two section of books and two section of notebooks. This will reduce the load to be carried to school and thereby will reduce the weight of schoolbag by 75 to 50 %.",,,,,Tiwari Harish,[],[],[],[],[],[]
+IN2013DE00989A,Patent IN2013DE00989A ,IN,2015-07-10,"The invention pertains to an IT-based system for facilitating knowledge enhancement of students by creating a pervasive learning environment through in-campus and off-campus interventions. High quality content inputs are provided through automated web-based mashup tools and human domain experts to a cloud-based knowledge management system, which distributes domain-specific content streams to designated knowledge servers catering to a particular institution. The content streams are specific to an institution and subscribed to by an institution based on the academic programmes it offers. These content streams are then distributed locally within the campus to electronic display boards which are connected wirelessly to the knowledge server. The content stream is visible to the student pervasively throughout the campus promoting sub-conscious learning and enhancement in knowledge without active participation. Content streams are also posted in a personalized manner to the various social networking platforms used by the target audience so that knowledge can be delivered pervasively beyond the classrooms.",,,,,Ankur Gupta,[],[],[],[],[],[]
+IN163001B,Patent IN163001B ,IN,1988-07-30,,,,,,Mohan Rao Yelakanti,[],[],[],[],[],[]
+IN2014CH00581A,Patent IN2014CH00581A ,IN,2015-08-14,"ABSTRACT According to an aspect of the present disclosure, the storage water purifier device is provided to purify water. The storage water purifier protects and filters water from impurities, water borne diseases and dirt particles. The first level purifier such as traditional purifier and second level purifier such as swach bulb are the sources of water purifier in storage water purifier. The storage water purifier filters the impurities and provides purified water. According to yet another aspect of the present disclosure, the mesh is used to prevent visible impurities and suspended particles to reach the top container. Each of these layers removes different things, leaving the water that comes out of them clean enough to drink safely. According to yet another aspect of the present disclosure, the device, storage water purifier comprises top container, intermediate container, bottom container, tap and platform assembled with traditional purifier and swach solves the purification of impure water.",,,,,U Balappa B,[],[],[],[],[],[]
+IN2014DE00641A,Patent IN2014DE00641A ,IN,2015-09-11,"The present invention discloses an air-conditioning apparatus that is low-cost and provides an air-conditioned surrounding to a localized area, preferably covering a person and his nearby surroundings. The air-conditioning apparatus of the present invention comprise an ice-blocks filled tray to cool air, a wire-mesh dehumidifier to remove moisture from the cooled air, and an exhaust fan to expel cool, moisture-free air. The present invention uses unconventional and non-obvious alternatives as components to create a unique, less power consuming solution that is effective and make air-conditioner an affordable purchase for the masses.",,,,,Veena Mishra Ms,[],[],[],[],[],[]
+IN2014MU00684A,Patent IN2014MU00684A ,IN,2015-09-25,"The invention relates to the effective separation of compounds against acne inducing bacteria as anti-acne agents from leaves of Ocimum tenutflorum Linn. The invention also describes the process of separation of antimicrobial compounds using High Performance Thin Layer Chromatography (HPTLC) - Bioautographic technique, and identification of the separated antimicrobial active compounds by Gas Chromatography-Mass Spectrometry (GC-MS) analysis.",,,,,Pandita Nancy,[],[],[],[],[],[]
+IN2014MU00687A,Patent IN2014MU00687A ,IN,2015-09-25,The present invention describes quantitative determination of withaferin A from Rat plasma by High Performance Thin Layer Chromatographic Method. HPTLC is most widely used at industrial level for routine analysis of herbal medicines. Moreover HPTLC is user friendly and cost effective. We have tried to use such technique for determination of plant constituent from biological sample i:e blood after oral administration. The object of the present invention is to provide a novel method for determination of withaferin A from Rat plasma by using HPTLC method. We found that the adopted high performance thin layer chromatographic (HPTLC) method is capable of evaluating withaferin A in plasma after extraction. The method could be used to carry out pharmacokinetic studies of the withering A.,,,,,Pandita Nancy,[],[],[],[],[],[]
+IN2014DE00924A,Patent IN2014DE00924A ,IN,2015-10-02,"A method and a multi-switch architecture include learning a media access control (MAC) address at a first switch in a multi-switch architecture; storing the MAC address in a forwarding database of the first switch; transmitting a data frame to one or more switches in the multi-switch architecture via inter-switch connectivity between the first switch and the one or more switches, wherein the data frame is created to enable the one or more switches to learn the MAC address therefrom; learning the MAC address from the data frame at the one or more switches; and storing the MAC address in a forwarding database for each of the one or more switches. This further includes transmitting the data frame via ports and queues in the inter-switch connectivity that are separate from ports and queues in a data path between the first switch and the one or more switches to avoid data path interference.",,,,,Vineet Gautam,[],[],[],[],[],[]
+IN180398B,Patent IN180398B ,IN,1998-01-31,,,,,,Jetendra Behari,[],[],[],[],[],[]
+IN2014CH00463A,Patent IN2014CH00463A ,IN,2015-08-07,"According to an aspect of the present invention, a composite material based on honeycomb core structure made of Kevlar material which is sandwiched between stiffened aluminium panels is developed. A sample material is studied under various physical condition in relations to commonly used materials such as I section and HAT section. It is found that the honeycomb structure made with Kevlar material in between two aluminium sheets provided greater load bearing capacity while lowering the mass for an Aircraft construction.",,,,,Srikari S,[],[],[],[],[],[]
+IN2014CH00461A,Patent IN2014CH00461A ,IN,2015-08-07,"Abstract When multiple users are using the same vehicle each one of them has to change the settings of power window, power mirror, audio and A/C according to his or her comfort. It is desirable to have the settings stored and activated through the key fob. Existing key fobs are used for remote keyless entry and more recently for passive entry and passive start. This project aims at designing a system that saves the user settings and activates them using the key fob. In this work, an ECU is designed and developed using PIC18F458 controller that saves the user settings for power window, power mirror, audio and A/C. A simulation model for this system is been developed using Vector CANoe. This system is designed and developed for two users along a guest mode. The settings for power window, power mirror, audio and A/C can be saved by the users through a DTMF keypad interfaced to the microcontroller and the status is displayed on the LCD. The power window is a part of the vehicle CAN network. The control algorithm for this system was developed using MPLAB IDE in Embedded C. The key fob ECU was tested successfully to activate and deactivate various settings for two users. The data communication for power window module was tested by sending CAN messages on the network. The system was prototyped and integrated with the available Body Control Module. The integrated system has been tested for its functionality by generating various test cases for different users. The designed prototype can be developed as a product. The ECU can be integrated with more subsystems through different communication protocols.",,,,,Tracy Austina Z,[],[],[],[],[],[]
+IN153335B,Patent IN153335B ,IN,1984-06-30,,,,,,Ved Ratna,[],[],[],[],[],[]
+IN153334B,Patent IN153334B ,IN,1984-06-30,,,,,,Ratna Ved,[],[],[],[],[],[]
+IN153257B,Patent IN153257B ,IN,1984-06-23,,,,,,Ved Ratna,[],[],[],[],[],[]
+IN2015MU01661A,Patent IN2015MU01661A ,IN,2015-05-08,RAWANDALE'S VIRTUAL FLUOROSCOPY SYSTEM (VFS) FOR PCNL SIMULATION The Rawandale's Virtual fluoroscopy System (VFS) for PCNL Simulation is useful for training the learner to target the kidney during PCNL and thus decreasing the learning curve of initial puncture. Procedure for using the Rawandale's Virtual fluoroscopy System (VFS) for PCNL Simulation 1.	The surgeon stands in front of the Rawandale's Virtual fluoroscopy System (VFS) for PCNL Simulation - Fig 1 2.	The optical 'C' arm is positioned vertically. 3.	The surgeon holds the initial puncture needle in a stance to puncture the transparent screen. 4.	The foot switch is pressed to visualise the kidney replica against the screen. The shadow is captured by the camera and shown on the monitor. 5.	The surgeon uses the routine surgical technique to aim at the kidney shadow seen on the monitor. 6.	The surgeon can practice the same technique repeatedly till he is confident.,,,,,Patil Ashish Vishwas Dr Rawandale,[],[],[],[],[],[]
+IN2013CH05183A,Patent IN2013CH05183A ,IN,2015-08-28,"A Solar Bicycle This invention relates to a solar bicycle which has provision to run on sunlight selected from solar energy, electricity, additionally the bicycle can also be used to function as a power generator when the bicycle is at rest. A solar powered electrical bicycle includes a D.C motor, solar panel, control switch, battery, charger and brake control device adapted to the bicycle. Control switch to be mounted to a handlebar of the bicycle and a switching device integrated with this cycle. The motor is connected to the back wheel of cycle with help of chain sprocket to make the cycle run. A dynamo fitted in the cycle for lighting head lamp. Battery supplies power to horn & indicators for safe driving. Solar panel has been fitted with bicycle itself.",,,,,A Muniappan Mr,[],[],[],[],[],[]
+IN2015CH04595A,Patent IN2015CH04595A ,IN,2015-09-11,"The present invention provides a method and system for providing a platform for assisting sales professionals and channel owners in choosing the best products to present, sell to their customers, based on various internal, external parameters. The method includes calculation of how a certain product applies to a certain customer scenario, how much a customer is likely to buy a certain product, how well the product is likely to perform during sales, how well the product is likely to perform in a sales channel and other factors related to this. The organization can adjust these parameters and their weightages based on their business need and the system automatically promotes the right products, learning on its own based on the feedback from users. The system also allows the auditing of recommendations, while hiding the private details from the individual users. This helps in bringing shorter sales cycles and the efforts of the sales professionals and channel owners being spent in the right direction, improving profitability and revenue.",,,,,Naga Subramanian Chokkanathan,[],[],[],[],[],[]
+IN2015KO00305A,Patent IN2015KO00305A ,IN,2015-04-17,"Method of Mining to prevent fire occurrence in opencast mines working over underground coal pillars modeled for better control of fiery situations by its detection, prevention and prediction, comprising: a)Identification of critical mining parameters responsible for fire occurrences such as area of coal face exposure, rate of coal face advance, b)Finding the role of coal intrinsic susceptibility towards fire (represented by crossing point temperature) to be secondary in nature towards occurrence of fire and using critical mining parameters like apparent area and additional area where the component of additional area is far more in magnitude and significance than the apparent area towards occurrence of fire, Formulation and measurements of the identified mining parameters, c)Statistical validation of the measurements (using ANOVA, and Confidence Interval (CI) Analysis), d)Capturing the non-obvious hidden factors within the attributes causing fire and validated by machine learning LMT classifier, e)ApplyinglO fold cross validation method for its further validation to show consistency in performance, f)Prevention and controlling occurrence of fire by proper tuning of the identified mining parameters.",,,,,Kumar Sinha Satish,[],[],[],[],[],[]
+IN2014MU00081A,Patent IN2014MU00081A ,IN,2015-08-21,The present disclosure provides a comprehensive knowledge of developing a Wireless Sensor Network (WSN) platform and implementing the same for precision agriculture in a more cost effective and reliable manner. The WSN platform comprising at least two sensor-nodes cooperating with at least a base-station for learning the positioning of the sensor-nodes in an agricultural field or land and further instructing as well as managing functioning of the sensor-nodes in real time. The updates received at the base-station from the sensor-nodes are processed in real time and message strings are generated. These message strings are further transmitted to at least one user device and at least one server where the message strings are processed to generate analytical data-patterns.,Y02A40/10,"Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture",,,Pande Milind Sudhakar Mr,[],[],[],[],[],[]
+IN2013CH05191A,Patent IN2013CH05191A ,IN,2015-05-29,Suitable for replacing your current fountains standard electric pump.Overcast built-in protection assists in operation when cloudy. 	Connects to tubing for creating your own water features and effects. 	Manufactured using the latest solar cell technology.,,,,,Ranganathan Dr S,[],[],[],[],[],[]
+IN2013CH05199A,Patent IN2013CH05199A ,IN,2015-05-29,1.	A system comprising a motorized wheelchair and a device for operating electrical home appliances controlled by the vocal sounds of the user as input.,,,,,J Anoop K,[],[],[],[],[],[]
+IN2013CH05192A,Patent IN2013CH05192A ,IN,2015-05-29,"In today's world, security is a most important concern and when it comes to military, it's the primary need. In recent years, there has been a report of border crossing in every country without prior permission anonymously. Hence, it leads to firing and chaos. This made us to think about an unmanned protection and surveillance on borders. This robot that we prepared is mobile. This can be controlled using a communication device or GPS senders/receivers. This also performs the act of image recording/capturing and sends to the receiving station every second it works. It's a simple model built without the use of objects that are restricted to normal people. This can be implemented with those special elements designed for defence purposes and can be applied in the real world activity. This operates with well-equipped communication device like Cell phone, GPS, Data senders/receivers which can be decoded and transmitted in any format using 'Arduino Board' - a microcontroller.",,,,,Pandiyan A,[],[],[],[],[],[]
+IN2013CH05186A,Patent IN2013CH05186A ,IN,2015-05-29,1.	Smooth cut stump of sugarcane using rotary blade.Performance even in very small sugarcane fields.High yield of cut sugarcanes. Inexpensive and technically feasible harvester.,,,,,S A Suryakumari T,[],[],[],[],[],[]
+IN2013CH05193A,Patent IN2013CH05193A ,IN,2015-05-29,"The invention concerns about the automated cleaning process in industry and road cleaning. Dust collector includes a motor functioning as a driving source, a drive unit for driving a motor a dust collecting vacuum cleaner which have suction. The sweeper under the chassis sweeps the floor and moves the dust front and the vacuum sucks the dust particles and it is stored in the tank this serves as the storage unit for collecting the dust and dirt. To start the clean-up process the robot which is an automated trigger drives the way in clearing the dust and helps the vacuum to suck it for storage. No manual intervention is required when the clean-up process is going on, it will be required at the end point where the stored dust collection requires to be removed from the disposal bag and once it is removed should be replaced with a new bag for the next cleaning process. A tank section located for accommodating dust conveyed by sucker. The lead acid battery is used to drive the DC motor. The DC motor is connected to rear driving and steering rear wheel. If the power is given to the DC motor the chassis start to move by an automated wireless robot. The solar panel absorbs the heat source and it is been inverted to store in battery. The power watts and voltage is to be calculated. The main aim of this project is to design a system that behaves like a robot and control it using RF technology. Robot is a system that contains sensors, control systems, manipulators, power supplies and software all working together to perform a task.",,,,,Pandiyan A,[],[],[],[],[],[]
+IN2013CH05244A,Patent IN2013CH05244A ,IN,2015-05-29,Digital diary is a mobile app which is used to reduce typing effort of human. It is an app which is concerned with the speech recognition. It is an electronic diary for writing their own diaries by using both speech recognition API (converts speech to text) and typing on QWERTY pad. It is secured with password. It works on android platform.,,,,,K Manisha M,[],[],[],[],[],[]
+IN2013CH05185A,Patent IN2013CH05185A ,IN,2015-05-29,1.	The design is claimed to manufacture a powder metallurgy component using green compact method limiting its demerits.The die is designed with uniqueness of easy material loading and easy material removal without any breakage in the material or the green compact.,,,,,J Paul James Thadhani Mr,[],[],[],[],[],[]
+IN2013CH05223A,Patent IN2013CH05223A ,IN,2015-05-29,Helpline is an emergency app which is used for finding the nearest places quickly and effectively. This is an online app. so it works only when the mobile is connected to the net. More over this app gives complete details for those places in the updated list. It gives the directions to reach the destination place quickly.,,,,,Meera S,[],[],[],[],[],[]
+IN2013CH05235A,Patent IN2013CH05235A ,IN,2015-08-28,"a)	The main theme is to create a online shopping application with virtual source.These app will give a clear idea about the item what we want to buy.In this application the textiles will play a major role because in textiles we have so many types of fashion.In day-to-day our life we give more importance to our fashion and style. For that we use to buy most latest things only.which will give brand to our fashion.In mens wear we see so many ultra fashions in our life daily.Every day the new stock or models are available.For all human beings are interested on the fashion or style because it will represent our into special model and became as a role model to so other people who are like our fashion. We can a buy a item buy sitting infront of computer are there so many applications like olx,quickr,ebay etc.,But my app we provide a virtual sources to user it means it represent u in the screen and check the item like dress is suitable or comportable or looking good to you.Because you can check that item by virtually. This app will give a so many ultra versions than any other.It will gives a user into clear idea about that item.These app is used both in mobiles phones and computer also.These application will work on both windows and android also. The main thing to work this app is front cam which is good in zoom because this app is work on virtual source.So that front cam for this application is compulsory to work.We can buy a item from anyplace to anywhere.lt is a app, I think which is not created in our india. This is app which will most technological source of Java and virtual source.The main wishof these app is to create a online shopping application with virtual source. This is a new trade mark to create a trade mark in online shopping application than olx,quickr,ebay,flipkraft etc.,The app name is zango because it will give a clear information about what we want or need",,,,,Amareswar K,[],[],[],[],[],[]
+IN2013CH05204A,Patent IN2013CH05204A ,IN,2015-05-29,"ja[ II is a reliable, real-time monitoring and secure smart grid infrastructure.Mainly, it is automated home level demand-response management (DRM) system. It will act as a centrally supervised system in home level micro grid.",,,,,K Monisuthan S,[],[],[],[],[],[]
+IN2015MU02903A,Patent IN2015MU02903A ,IN,2015-08-07,"A system for measurement of angles with ease and also accurately as well as for checking the correctness of angles, the said system uses an angle sensor, the line tracer sensor and the pointer, the said angle sensor senses the angle and displays the angle in the display in digital form, the said line tracer sensor will sense the line and will glow the Green LED which indicates the measured value is correct otherwise will glow Red LED simultaneously the angle will be displayed on the display, the said pointer plots the point after required angle is achieved, the said systems are connected to a small portable battery, this system is beneficial for all those where the measurement of angle is required especially for engineers, architects and also for school and college level students.",,,,,Aatish Atul Prabhune Mr,[],[],[],[],[],[]
+IN2013CH05177A,Patent IN2013CH05177A ,IN,2015-08-28,"The most critical part of this mobility IP is the handover. During this phase, the mobile node (MN) is not able to send or receive data, and some packets may be lost or delayed due to intermediate buffers. This is often unacceptable for video streaming. The IETF 'MIPv6 Signaling and HandofF Optimization' working group has designed Fast Handovers for Mobile IPv6 (FMJPv6) in order to speed it up. The main goal of FMIPv6 is to reduce both the handover latency and the packet losses to zero.",,,,,Jaiganesh B,[],[],[],[],[],[]
+IN2013CH05184A,Patent IN2013CH05184A ,IN,2015-05-29,"The invention is concerned with portable spraying sprayer empowered by solar power. The equipment is carried on the back of an operator and operated by him as he walks in the agriculture field between rows of standing crops. Renewable source of energy reduces usage of conventional fuels and pollutions. Utilization solar energy has steady growth in twenty first century. Sprayers are developed for dispensing liquid, such as fertilizers, insecticides, disinfectants and other residential or agricultural type purposes In this sprayer we use electrically charged battery and hence the necessity of petrol is completely avoided. Sprayer apparatus consists of plastic molded container having two parts for storing fluid and housing for blower and battery. The motor-blower assembly is thus attached at the lowest part of the sprayer. Battery can be charged continuously during discharge itself, by attaching the panel on the sprayers. By changing the battery, discharge can be continued for further more hours. Charging can be done by separate Solar Panel attachment. Battery power can be utilized for various purposes like mobile charging, emergency light, fans etc other than spraying.",,,,,A Muniappan Mr,[],[],[],[],[],[]
+IN2013CH05238A,Patent IN2013CH05238A ,IN,2015-08-07,MASTER OF SHOPPING brings all the shopping websites in a single application. MASTER OF SHOPPING more than hundreds of products can be sold and bought using the same application with a range of products. MASTER OF SHOPPING is an easy friendly application for placing of product and selling them.,,,,,A Pradeep Student K,[],[],[],[],[],[]
+IN2013CH05206A,Patent IN2013CH05206A ,IN,2015-05-29,"1.	A product Verification system for those purchased the products to verify whether the product they have bought is genuine or not. This system comprises: a product code database system; a product verification code (alphanumeric) printed inside the product's packaging (hidden); a front end design for end users, so that they can enter the hidden code i.c the product verification code into the website to verify whether the product they have bought is genuine or not; implementation of this technology on mobile SMS service.",,,,,Arul K,[],[],[],[],[],[]
+IN2013CH05174A,Patent IN2013CH05174A ,IN,2015-05-29,•	A portable device to measure Tooth pressure using Android mobile phone and can be used personally or in hospital.,,,,,C Kishore Raja Dr P,[],[],[],[],[],[]
+IN2013CH05189A,Patent IN2013CH05189A ,IN,2015-05-29,o The product is unique as it used solar power o The product is portable and used for carrying medicines which needs refrigeration.,,,,,A Sivasubramanian Mr,[],[],[],[],[],[]
+IN2013CH05190A,Patent IN2013CH05190A ,IN,2015-05-29,"1. A Biometric Operated Locking System For Home / Four-Wheelers device comprising: a Optical sensor, RF Transmitter, RF reciver and Micro controller; a connection between optical sensor, RF Transmitter, RF reciver and Micro controller are made. a optical sensor scanes the finger image and convert to electric signal, sent to the input of RF transmitter. a RF transmitter convert the electric signal to radio signal and send to the in put of RF receiver. A a RF receiver send the signal to the micro controller. The micro controller process the signal send by the RF receiver and compare the image with the stored scanned images",,,,,Ranganathan Dr S,[],[],[],[],[],[]
+IN2013CH05196A,Patent IN2013CH05196A ,IN,2015-05-29,.	A cheap and novel method of synthesizing HA powders containing strontium by using the household microwave oven.Our method does not require any post-processing like sintering or densification.,,,,,narayanan R,[],[],[],[],[],[]
+IN2013CH05187A,Patent IN2013CH05187A ,IN,2015-05-29,1.	Usage of bar magnet with another permanent magnet to create and sustain continuous oscillatory motion that could activate a flywheel and could help in further electric power generation.,,,,,M Bharaneedharan Mr,[],[],[],[],[],[]
+IN2013CH05188A,Patent IN2013CH05188A ,IN,2015-05-29,Mono wheels are generally built and used for fun and entertainment purposes.,,,,,Ranganathan Dr S,[],[],[],[],[],[]
+IN2013CH05175A,Patent IN2013CH05175A ,IN,2015-05-29,". A mobile application WinAn APP, used for switching between windows OS and android OS in a MULTJ OS MOBILE PHONE.",,,,,C Kishore Raja Dr P,[],[],[],[],[],[]
+IN155401B,Patent IN155401B ,IN,1985-01-26,,,,,,Dr Debedrata Chandra,[],[],[],[],[],[]
+IN2012DN02461A,Patent IN2012DN02461A ,IN,2015-08-21,"The invention relates to a method and device (1) for securely transmitting data (D). To this end, a session concept is described, which uses cryptographic methods at the application level. While in conventional methods point-to-point connections can only be sufficiently secured at the transport level, according to the technical teaching provided integrity protection and confidentiality protection of data can now also be implemented at the application level. The method and the device (1) for securely transmitting data (D) are used in network technology. Fig: - 7",,,,,Steffen Fries,[],[],[],[],[],[]
+IN202041040934A,Patent IN202041040934A ,IN,2020-10-09,,,,,,JYOTI METAN Dr. (ASSISTANT PROFESSOR),"['CN114097590A', 'CN114431122A', 'WO2022217756A1', 'CN115250879A', 'CN116403350A']",[],"['CN114097590A', 'CN114431122A', 'WO2022217756A1', 'CN115250879A', 'CN116403350A']","['CN114097590A', 'CN114431122A', 'CN115250879A', 'CN116403350A']",[],"['CN114097590A', 'CN114431122A', 'CN115250879A', 'CN116403350A']"
+IN2015DN00243A,Patent IN2015DN00243A ,IN,2015-06-12,"The invention relates to an advanced device for welding training based on augmented reality simulation which can be updated remotely and which allows simulation of all types of industrial welding i.e. coated electrode (SMAW), MIG/MAG (GMAW,FCAW) and TIG (GTAW), all types of materials and all types of existing joints in all welding positions (1F to 4F, 1G to 6G,6GR) providing a very exact simulation of the behaviour of a real welding machine through the use of augmented reality technology which allows interaction between different elements in multiple layers all of which is implemented on a system for checking monitoring and evaluating students which allows the teacher to test the student in real time without the teacher being present in the training room including from a remote station.",G09B9/00,Simulators for teaching or training purposes,,,Barrera Juan José Chica,"['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1']","['US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1', 'US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B']","['CN101833892A', 'CN104704535A']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B', 'CN101833892A', 'CN104704535A']"
+IN2014DN10395A,Patent IN2014DN10395A ,IN,2015-08-14,Computer based educational systems methods and media for a child aged about 1 to about 10 years comprising: an educational environment comprising: at least three subjects appropriate for the child wherein each subject comprises a plurality of levels of learning; a plurality of learning activities associated with each subject; wherein the plurality of learning activities teaches toward one or more educational objectives in a subject and is substantially free of activities not teaching toward one or more educational objectives in a subject; a module for creating an avatar to represent the child; and a module for monitoring the progress of the child in each of the subjects wherein the module for monitoring progress displays an explorable environment comprising the avatar representing the child a learning path comprising a sequence of lessons or learning activities and interactive elements configured to teach facts associated with the environment.,G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Doug Dohring,"['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B']","['JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B', 'JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B']",['CN100565611C'],"['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B', 'CN100565611C']"
+IN2014CN03302A,Patent IN2014CN03302A ,IN,2015-07-03,An objective of the present invention is to subtract only the difference between bulge and dent mark heights and compute and acquire only the heights of bulges and dents even when bulges and dents are present so as to overlap in the bulge and dent marks. Provided is a tire shape inspection method for inspecting sidewall surface shape defects in inspected tires using an image of a sample tire having sidewall surfaces on which bulge and dent marks are formed. The method executes the following steps: first as a teaching operation step boundary lines of the bulge and dent marks are detected in a sample source image of a sample tire a mask image is generated which denotes the boundary lines regions are removed from the sample source image which correspond to the boundary lines which are denoted in the mask image and a height offset image is generated which represents the heights of the remaining regions with one or more offset values. Next as an inspection operation step the height offset image is subtracted from an inspection image of the inspected tire the boundary regions which the mask image represents are removed and on the basis of the obtained bulge/dent removal image shape defects of the sidewall surfaces of the inspected tire are inspected.,G01M17/02,Tyres,,,Eiji Takahashi,"['US9361641B2', 'US9110032B2', 'JP5923054B2', 'JP6267481B2', 'JP5775132B2', 'US10267710B2', 'JP5831592B2', 'JP6159294B2', 'FR3022380A1', 'JP6289283B2', 'JP6413630B2', 'EP3237837B1', 'MX367880B', 'JP6279163B1', 'JP6591762B2', 'MX2017016138A', 'CN109416243A', 'CN107121084B', 'CN107121058B', 'KR101802812B1', 'CN109344832B', 'CN109325930B', 'JP7018380B2', 'RU2764644C1', 'WO2020121306A1', 'JP7220128B2', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']","['US4910411A', 'US6381547B1', 'US6831996B1', 'JP4034168B2', 'JP4679073B2', 'US7269997B2', 'JP5046688B2', 'EP2020594B1', 'EP2295930B1', 'JP5302701B2', 'KR100998058B1', 'US8712720B2', 'JP5371848B2']","['US9361641B2', 'US9110032B2', 'JP5923054B2', 'JP6267481B2', 'JP5775132B2', 'US10267710B2', 'JP5831592B2', 'JP6159294B2', 'FR3022380A1', 'JP6289283B2', 'JP6413630B2', 'EP3237837B1', 'MX367880B', 'JP6279163B1', 'JP6591762B2', 'MX2017016138A', 'CN109416243A', 'CN107121084B', 'CN107121058B', 'KR101802812B1', 'CN109344832B', 'CN109325930B', 'JP7018380B2', 'RU2764644C1', 'WO2020121306A1', 'JP7220128B2', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B', 'US4910411A', 'US6381547B1', 'US6831996B1', 'JP4034168B2', 'JP4679073B2', 'US7269997B2', 'JP5046688B2', 'EP2020594B1', 'EP2295930B1', 'JP5302701B2', 'KR100998058B1', 'US8712720B2', 'JP5371848B2']","['CN109416243A', 'CN107121084B', 'CN107121058B', 'CN109344832B', 'CN109325930B', 'RU2764644C1', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']",[],"['CN109416243A', 'CN107121084B', 'CN107121058B', 'CN109344832B', 'CN109325930B', 'RU2764644C1', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']"
+IN2014CN00810A,Patent IN2014CN00810A ,IN,2015-04-03,Methods systems and devices for controlling access to messaging (SMS MMS email etc.) on mobile devices (e.g. cell phones) during times or in locations in which such activity is prohibited or inhibited by the parental control settings. Parental control settings limit messaging features available to mobile devices to certain times and/or locations (704 706). Messages received at restricted times/locations are stored in temporary memory (712) without notifying the mobile device user (i.e. messages are not placed in the inbox) unless the message is received from a pre approved source (e.g. parent teachers etc.). Once the context for restricting access to messaging (e.g. time location etc.) no longer applies (714) the stored messages may be transferred from the temporary memory to the inbox (716 708) and the user may be alerted regarding the new message.,H04L51/212,Monitoring or handling of messages using filtering or selective blocking,,,Stephen A Sprigg,"['US8380176B2', 'US20130055350A1', 'US8812994B2', 'US9094534B2', 'US9292195B2', 'US9372978B2', 'US10070195B1', 'US10404615B2', 'US9680763B2', 'US9049305B2', 'US9288655B2', 'US9282898B2', 'GR20120100577A', 'US20140173747A1', 'US20140280955A1', 'US9231954B2', 'US20140280620A1', 'WO2014179743A1', 'US9219741B2', 'BR102013017941B1', 'CN104349370A', 'EP3028058A4', 'CN103491231A', 'US9148869B2', 'CN104660626A', 'US9626720B2', 'US9485206B2', 'US20150256423A1', 'KR102318907B1', 'CN104063655B', 'US10255449B2', 'CN104063654B', 'US20150373504A1', 'CN104093134A', 'KR20160070471A', 'CN104468802B', 'US9584964B2', 'US10515344B1', 'US20160260347A1', 'CN106465076B', 'CN106156923A', 'KR102340843B1', 'US10409967B2', 'WO2016210327A1', 'US9906516B2', 'US10282719B1', 'US9817992B1', 'KR102364087B1', 'US10972476B2', 'JP6900552B2', 'CN107239263B', 'CN106817480A', 'US10206096B2', 'US10754986B2', 'US10499249B1', 'JP6640798B2', 'CN109194817A', 'CN109756871B', 'US11188677B2', 'JP2021097353A', 'US11140240B1', 'CN111859131B', 'US11960615B2']","['JP3641934B2', 'CN1458802A', 'US7330713B2', 'JP5043431B2', 'US7869790B2', 'JP2006293621A', 'GB2431072A', 'US20080005325A1', 'US8526979B2', 'US20080287106A1', 'CN101119550B', 'GB2456754A', 'US8107944B2', 'JP4976360B2', 'JP2010226601A', 'US9130779B2', 'EP2273757A1', 'US8347362B2', 'US8301168B2', 'US20120303439A1', 'US8290542B2']","['US8380176B2', 'US20130055350A1', 'US8812994B2', 'US9094534B2', 'US9292195B2', 'US9372978B2', 'US10070195B1', 'US10404615B2', 'US9680763B2', 'US9049305B2', 'US9288655B2', 'US9282898B2', 'GR20120100577A', 'US20140173747A1', 'US20140280955A1', 'US9231954B2', 'US20140280620A1', 'WO2014179743A1', 'US9219741B2', 'BR102013017941B1', 'CN104349370A', 'EP3028058A4', 'CN103491231A', 'US9148869B2', 'CN104660626A', 'US9626720B2', 'US9485206B2', 'US20150256423A1', 'KR102318907B1', 'CN104063655B', 'US10255449B2', 'CN104063654B', 'US20150373504A1', 'CN104093134A', 'KR20160070471A', 'CN104468802B', 'US9584964B2', 'US10515344B1', 'US20160260347A1', 'CN106465076B', 'CN106156923A', 'KR102340843B1', 'US10409967B2', 'WO2016210327A1', 'US9906516B2', 'US10282719B1', 'US9817992B1', 'KR102364087B1', 'US10972476B2', 'JP6900552B2', 'CN107239263B', 'CN106817480A', 'US10206096B2', 'US10754986B2', 'US10499249B1', 'JP6640798B2', 'CN109194817A', 'CN109756871B', 'US11188677B2', 'JP2021097353A', 'US11140240B1', 'CN111859131B', 'US11960615B2', 'JP3641934B2', 'CN1458802A', 'US7330713B2', 'JP5043431B2', 'US7869790B2', 'JP2006293621A', 'GB2431072A', 'US20080005325A1', 'US8526979B2', 'US20080287106A1', 'CN101119550B', 'GB2456754A', 'US8107944B2', 'JP4976360B2', 'JP2010226601A', 'US9130779B2', 'EP2273757A1', 'US8347362B2', 'US8301168B2', 'US20120303439A1', 'US8290542B2']","['BR102013017941B1', 'CN104349370A', 'CN103491231A', 'CN104660626A', 'CN104063655B', 'CN104063654B', 'CN104093134A', 'CN104468802B', 'CN106465076B', 'CN106156923A', 'CN107239263B', 'CN106817480A', 'CN109194817A', 'CN109756871B', 'CN111859131B']","['CN1458802A', 'CN101119550B']","['BR102013017941B1', 'CN104349370A', 'CN103491231A', 'CN104660626A', 'CN104063655B', 'CN104063654B', 'CN104093134A', 'CN104468802B', 'CN106465076B', 'CN106156923A', 'CN107239263B', 'CN106817480A', 'CN109194817A', 'CN109756871B', 'CN111859131B', 'CN1458802A', 'CN101119550B']"
+IN202041001322A,Patent IN202041001322A ,IN,2020-01-17,,,,,,R. Madana Mohana Dr.,"['CN112731994A', 'CN114610829A', 'WO2022217756A1']",[],"['CN112731994A', 'CN114610829A', 'WO2022217756A1']","['CN112731994A', 'CN114610829A']",[],"['CN112731994A', 'CN114610829A']"
+IN202031027653A,Patent IN202031027653A ,IN,2020-08-14,,,,,,Anand Mohan Dr.,['WO2023285898A1'],[],['WO2023285898A1'],[],[],[]
+IN2015MU03578A,Patent IN2015MU03578A ,IN,2015-10-02,"Blackboards are used as one of the oldest teaching device in the world but with the modifications in the technology whiteboards are invented for eliminating the diseases caused by chalk powder. Now-a-days Whiteboards are used in most of the educational Institutes. Large size whiteboards give advantage of using more area for writing purpose but on the contradictory it is time consuming to nib the boards. Different methods of cleaning the boards have been developed. This led to the invention of self-cleaning whiteboards. Hence, many approaches are introduced to clean the board automatically. An attempt has been made to modify the features of automated motorized whiteboard by introducing a duster detaching mechanism. Due to this mechanism teacher can use the writings on the board as a future reference. The system consists of many small parts and mechanisms which are used efficiently for the working of the board. Some of them are: - Flexible whiteboard surface material, dusters, plastic rollers, cam and follower, four bar mechanism and motors. The working of this system is based on rotation of flexible whiteboard sheet material around the rollers. Rollers are operated by means of motors. In this way the whiteboard surface gets cleaned automatically by the dusters fixed on the backside of the board. If anyone wants to use writing for future reference then cam follower and four bar mechanism is used to detach the dusters from whiteboard. In addition to this a stand is designed to adjust the height of the board and also to make it portable. 	PARTS	SPECIFICATIONS/ DIMENSIONS 1.	DC Gear motor	Speed-lOORPM Voltage-4V to 12V Stall torque-42.5 IKg-cm Stall current-6.9Amp Gear assembly-Spur Shaft length-25 to 30mm Shaft diameter-8mm 2.	Wooden Block (Covered with sunmica sheet)	Length-80cm Height-50cm Breadth-5cm 3.	Rollers (PVC Pl astic)	Diameter-5cm Height-40cm 4.	Duster holders  (Plywood)	C Shaped Height-65cm Breadth-10cm Width-10cm Thickness-1.2cm 5.	Dusters (Sponge)		1st pa ttern	2nd pattern	3rd pattern Length Breadth	28cm  3 cm	14cm 3cm	40cm 3cm 6.	AC to DC Converter	Voltage-12V Current-3A 7.	White board surface	Length- 19 Breadth-40	2cm cm 8. Cam and followers Outer   diameter- 6 cm Inner diameter- 3 cm Type- Tangent cam 9. Springs	Mean diameter - 20 mm Coil diameter - 1 mm 10. Stand	Cross sections: 1.	2.56 cm 2.	3.175 cm 3.	3.81 cm",,,,,Bhushan Tukaram Chougule,['CN112009145A'],[],['CN112009145A'],['CN112009145A'],[],['CN112009145A']
+IN2013CH05994A,Patent IN2013CH05994A ,IN,2015-06-26,"ABSTRACT: The technique relates to a system and method for mining frequent and in-frequent items from a large transaction database to provide the dynamic recommendation of items. The method involves determining user interest for an item by monitoring short item behavior of at least one user then selecting a local category, a neighborhood category and a disjoint category with respect to the item clicked by the at least one user based on long term preferences data of a plurality of users of the ecommerce environment thereafter selecting one or more frequent and infrequent items from each of the selected local, neighborhood and disjoint category items and finally generating one or more dynamic recommendations based on the one or more items selected from the local category, the neighborhood category and the disjoint category and the one or more selected frequent and infrequent items. REF FIG: 1",G06F16/24578,Query processing with adaptation to user needs using ranking,,,Shastri Dr Lokendra,"['US9213776B1', 'US10885047B2', 'CN109614507B', 'CN110008409A', 'CN118350855B']","['US6064980A', 'US6687696B2', 'KR20090017835A', 'US8775230B2', 'US8301624B2', 'US9569499B2']","['US9213776B1', 'US10885047B2', 'CN109614507B', 'CN110008409A', 'CN118350855B', 'US6064980A', 'US6687696B2', 'KR20090017835A', 'US8775230B2', 'US8301624B2', 'US9569499B2']","['CN109614507B', 'CN110008409A', 'CN118350855B']",[],"['CN109614507B', 'CN110008409A', 'CN118350855B']"
+IN2014CH05458A,Patent IN2014CH05458A ,IN,2015-08-28,A compact sewage treatment plant consisting of three units to treat the sewage and the final effluent coming of third chamber can be recycled. It will comply with all IMO regulations and will satisfy MARPOL Annex IV regulations for Marine applications. The sewage that is separated out can be sent for Bio-Gas production on Shore installations. On board the ships this can be treated aerobically and dispensed thereafter. The Bio gas can be put to various uses thus saving money in the long run.,,,,,A Visweswaran Professor,[],[],[],[],[],[]
+IN2014CH05408A,Patent IN2014CH05408A ,IN,2015-08-28,"The unit is designed to treat Emulsified water to separate into Water, Sediments, and pinflocs. The discharge water coming out of the final stage has oil content less than 3ppm, colourless and odourless. This would meet stringent IMO regulations for overboard discharges from ships. This would also comply with all the requirements of National Anti-Pollution boards for effluent standards from Automobile service stations, Fabric manufacturing units etc whose discharges of waste water poses serious threat to environment. The unit consists of various stages of separation namely Flocculation and sedimentation, coalescence, filtration.",,,,,Visweswaran Prof A,[],[],[],[],[],[]
+IN2014CH05460A,Patent IN2014CH05460A ,IN,2015-10-16,This invention discloses a Hydraulic Motor (Without Reciprocating Parts) that can be used for all Marine Hydraulic Applications and Shore based Hydraulic Applications.,,,,,Shanthi Kumar L,[],[],[],[],[],[]
+IN2014CH05405A,Patent IN2014CH05405A ,IN,2015-09-04,The Unit disclosed in this invention is designed to separate water from oily water / water emulsion originating from Engine Room Bilges. The oil content in Separated water does not exceed 0 ppm (parts per million). The Clean 0 ppm Water can be pumped overboard or can be used for Toilet Facilities. This Unit cannot handle pure oil or Oily Water mix which contains more than 15 % oil.,,,,,A Venugopal Professor,[],[],[],[],[],[]
+IN2014DE00911A,Patent IN2014DE00911A ,IN,2015-10-02,The present invention relates to a kit and a method to identify M.tuberculosis.The method includes the following steps: a. isolating chromosomal DNA from a biological sample (Culture) b. conducting a real time PCR to obtain an amplicon c. digestion of said amplicon scparately with restriction enzymes Nrul and BamHI to obtain a digestion product d. Separating said digestion product into its constituents in an agarose gel; and e. Analyzing the restriction enzyme digestion pattern,C12Q1/689,"Nucleic acid products used in the analysis of nucleic acids, e.g. primers or probes for detection or identification of organisms for bacteria",,,Varma Basil Dr Mandira,[],['JP2003531570A'],['JP2003531570A'],[],[],[]
+IN151578B,Patent IN151578B ,IN,1983-05-28,,A01N33/06,Nitrogen directly attached to an aromatic ring system,,,E Teach,"['US4781752A', 'GB201800894D0']",[],"['US4781752A', 'GB201800894D0']",[],[],[]
+IN155857B,Patent IN155857B ,IN,1985-03-16,,,,,,Eugene Gordon Teach,[],[],[],[],[],[]
+IN145421B,Patent IN145421B ,IN,1978-10-07,,C07F9/4075,Esters with hydroxyalkyl compounds,,,H Lam,"['GB2242078A', 'JP2546525Y2']","['DE1251304B', 'BE639481A', 'US3833600A', 'DE1812497C3', 'JPS5527882B1', 'BE789614A', 'US3966921A', 'DE2445555A1', 'US3984410A']","['GB2242078A', 'JP2546525Y2', 'DE1251304B', 'BE639481A', 'US3833600A', 'DE1812497C3', 'JPS5527882B1', 'BE789614A', 'US3966921A', 'DE2445555A1', 'US3984410A']",[],[],[]
+IN144916B,Patent IN144916B ,IN,1978-07-29,,C07C233/02,Carboxylic acid amides having carbon atoms of carboxamide groups bound to hydrogen atoms or to acyclic carbon atoms having nitrogen atoms of carboxamide groups bound to hydrogen atoms or to carbon atoms of unsubstituted hydrocarbon radicals,,,E Gaughan,"['JPS5762205A', 'HU183997B', 'JPS61270188A', 'JP4836070B2']","['CA1174865A', 'US4033756A']","['JPS5762205A', 'HU183997B', 'JPS61270188A', 'JP4836070B2', 'CA1174865A', 'US4033756A']",[],[],[]
+IN143281B,Patent IN143281B ,IN,1977-10-29,,C07D207/273,"2-Pyrrolidones with hetero atoms or with carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals, directly attached to other ring carbon atoms",,,Eugene Gordon Teach,"['AU527254B2', 'EP0055215B1', 'DK162087C', 'FI74385C', 'FR2589150B2', 'EP0205391B1', 'FR2582300B1', 'FR2625197B1', 'FR2634762B1', 'US5210305A', 'US5189220A', 'FR2634761B1', 'FR2643902B1', 'JPH02237970A', 'FR2663927A1', 'JP2728937B2', 'DE69128175T2', 'FR2665439B1', 'US5538985A', 'EP2052612A1', 'DE102008037629A1', 'CN114031536A', 'WO2023233367A1']",['JPS49134835A'],"['AU527254B2', 'EP0055215B1', 'DK162087C', 'FI74385C', 'FR2589150B2', 'EP0205391B1', 'FR2582300B1', 'FR2625197B1', 'FR2634762B1', 'US5210305A', 'US5189220A', 'FR2634761B1', 'FR2643902B1', 'JPH02237970A', 'FR2663927A1', 'JP2728937B2', 'DE69128175T2', 'FR2665439B1', 'US5538985A', 'EP2052612A1', 'DE102008037629A1', 'CN114031536A', 'WO2023233367A1', 'JPS49134835A']",['CN114031536A'],[],['CN114031536A']
+IN160226B,Patent IN160226B ,IN,1987-07-04,,B01D45/06,"Separating dispersed particles from gases or vapours by gravity, inertia, or centrifugal forces by utilising inertia by reversal of direction of flow",,,Wurz Professor Dr-Ing Dieter,"['DE3406425C2', 'DE3437729C1', 'DE3535901A1', 'DE3702830C1', 'JPH0459018A', 'DE4214094C1', 'JP2634145B2', 'DE4406308C1', 'US5679120A', 'JPH0985040A', 'JP2005241102A', 'JP4775096B2', 'DE102016005146A1', 'CN113251822B', 'JP2024072422A']","['DE1544114C3', 'DE1544115C3', 'CH484711A', 'JPS5226343B2', 'FR2270924B1', 'DE2460726A1', 'DE2510754B2', 'DE3203842A1']","['DE3406425C2', 'DE3437729C1', 'DE3535901A1', 'DE3702830C1', 'JPH0459018A', 'DE4214094C1', 'JP2634145B2', 'DE4406308C1', 'US5679120A', 'JPH0985040A', 'JP2005241102A', 'JP4775096B2', 'DE102016005146A1', 'CN113251822B', 'JP2024072422A', 'DE1544114C3', 'DE1544115C3', 'CH484711A', 'JPS5226343B2', 'FR2270924B1', 'DE2460726A1', 'DE2510754B2', 'DE3203842A1']",['CN113251822B'],[],['CN113251822B']
+IN161637B,Patent IN161637B ,IN,1988-01-09,,F28F13/06,"Arrangements for modifying heat-transfer, e.g. increasing, decreasing by affecting the pattern of flow of the heat-exchange media",,,Dieter Professor Dr-Ing Wurz,"['DE3325876C1', 'AU3767189A', 'AT403520B', 'US5799724A', 'IT1294327B1', 'US7147071B2', 'JPH11211129A', 'US6280577B1', 'KR20030034289A', 'US7142424B2', 'CA2589717A1', 'US8115145B2', 'US20070295492A1', 'US7293602B2', 'US8997846B2', 'US8876090B2', 'CN101865574B', 'CN102252558B', 'US20120285667A1', 'US8711563B2', 'US9557072B2', 'BR112015021634A8', 'WO2018089848A2', 'US11703282B2', 'US11371694B2', 'BR112020002357A2', 'USD864366S1', 'WO2019089999A1', 'EP3786560B8']","['FR391043A', 'FR472122A', 'US1840651A', 'FR748639A', 'FR752475A', 'GB411319A', 'GB509109A', 'GB545608A', 'GB576864A', 'DE897417C', 'GB861941A', 'BE576669A', 'GB934631A', 'GB1004291A', 'JPS415514B1', 'US3384165A', 'US3385198A', 'DE1776130A1', 'DE1940963A1', 'NL7314929A', 'NL7314930A', 'US4335797A', 'HU181107B', 'SU1008606A1', 'US4503931A', 'DE3325876C1']","['DE3325876C1', 'AU3767189A', 'AT403520B', 'US5799724A', 'IT1294327B1', 'US7147071B2', 'JPH11211129A', 'US6280577B1', 'KR20030034289A', 'US7142424B2', 'CA2589717A1', 'US8115145B2', 'US20070295492A1', 'US7293602B2', 'US8997846B2', 'US8876090B2', 'CN101865574B', 'CN102252558B', 'US20120285667A1', 'US8711563B2', 'US9557072B2', 'BR112015021634A8', 'WO2018089848A2', 'US11703282B2', 'US11371694B2', 'BR112020002357A2', 'USD864366S1', 'WO2019089999A1', 'EP3786560B8', 'FR391043A', 'FR472122A', 'US1840651A', 'FR748639A', 'FR752475A', 'GB411319A', 'GB509109A', 'GB545608A', 'GB576864A', 'DE897417C', 'GB861941A', 'BE576669A', 'GB934631A', 'GB1004291A', 'JPS415514B1', 'US3384165A', 'US3385198A', 'DE1776130A1', 'DE1940963A1', 'NL7314929A', 'NL7314930A', 'US4335797A', 'HU181107B', 'SU1008606A1', 'US4503931A', 'DE3325876C1']","['CN101865574B', 'CN102252558B', 'BR112015021634A8', 'BR112020002357A2']",[],"['CN101865574B', 'CN102252558B', 'BR112015021634A8', 'BR112020002357A2']"
+IN176219B,Patent IN176219B ,IN,1996-03-16,,,,,,Hans-Reinhold Dr Dieter,[],[],[],[],[],[]
+IN2015KO00749A,Patent IN2015KO00749A ,IN,2015-08-07,"The present invention relates to a smart interactive teaching aid having customized teaching information useful for improved learning capability. More specifically, the device helps the student in real-time scenarios by review, practice exams, educational games and other related activities that will automatically be recorded in the device for further preview. Further, the invention provides more interactive learning rather than routine knowledge dissemination using a smart & advanced interactive learning device.",,,,,Pani Dr Prajna,[],[],[],[],[],[]
+IN189559B,Patent IN189559B ,IN,2003-03-29,,,,,,Varma Professor Ajit,[],[],[],[],[],[]
+IN181487B,Patent IN181487B ,IN,1998-06-27,,,,,,Helmut Dr Hettche,[],[],[],[],[],[]
+IN2012DN02461A,Patent IN2012DN02461A ,IN,2015-08-21,"The invention relates to a method and device (1) for securely transmitting data (D). To this end, a session concept is described, which uses cryptographic methods at the application level. While in conventional methods point-to-point connections can only be sufficiently secured at the transport level, according to the technical teaching provided integrity protection and confidentiality protection of data can now also be implemented at the application level. The method and the device (1) for securely transmitting data (D) are used in network technology. Fig: - 7",,,,,Steffen Fries,[],[],[],[],[],[]
+IN138121B,Patent IN138121B ,IN,1975-12-20,,,,,,Unknown,[],[],[],[],[],[]
+IN2014DN10395A,Patent IN2014DN10395A ,IN,2015-08-14,Computer based educational systems methods and media for a child aged about 1 to about 10 years comprising: an educational environment comprising: at least three subjects appropriate for the child wherein each subject comprises a plurality of levels of learning; a plurality of learning activities associated with each subject; wherein the plurality of learning activities teaches toward one or more educational objectives in a subject and is substantially free of activities not teaching toward one or more educational objectives in a subject; a module for creating an avatar to represent the child; and a module for monitoring the progress of the child in each of the subjects wherein the module for monitoring progress displays an explorable environment comprising the avatar representing the child a learning path comprising a sequence of lessons or learning activities and interactive elements configured to teach facts associated with the environment.,G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Doug Dohring,"['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B']","['JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B', 'JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B']",['CN100565611C'],"['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B', 'CN100565611C']"
+IN2015DN01188A,Patent IN2015DN01188A ,IN,2015-06-26,A data processing apparatus comprising: processing circuitry configured to perform data processing operations in response to program instructions the processing circuitry having a plurality of domains of operation having different secure levels comprising a secure domain and a further different secure domain wherein when operating in the secure domain the processing circuitry has access to at least some data that is not accessible in the further different secure domain; and a data store for storing data and instructions the data store comprising a plurality of regions each corresponding to one of said plurality of domains of operation and comprising at least one secure region for storing sensitive data accessible by the data processing circuitry operating in the secure domain and not accessible by the data processing circuitry operating in the further different secure domain and a less secure region for storing less sensitive data. The processing circuitry is configured: to verify for a program instruction to be executed that a region of the data store storing the program instruction corresponds to a current domain of operation of the processing circuitry; and in response to detecting that the program instruction is stored in a region of the data store that corresponds to a different domain than the current domain of operation of the processing circuitry; to verify whether the program instruction comprises a guard instruction; and if the program instruction comprises the guard instruction to switch the domain of operation to the domain corresponding to the region of the data store storing the program instruction. If the program instruction does not comprise the guard instruction a security violation indication is generated.,G06F12/1458,Protection against unauthorised use of memory or access to memory by checking the subject access rights,,,Thomas Christopher Grocutt,"['US20160314296A1', 'US9703733B2', 'CN105988713B', 'US9747218B2', 'US9870466B2', 'CN107315568B', 'US20180004946A1', 'US10650156B2', 'GB2562102B', 'CN109754062B', 'US11182507B2', 'US10942863B2', 'US11914726B2', 'GB2577878B', 'CN111353595A', 'CN111339060B', 'CN111400341B', 'GB2589897B', 'GB2589895B']","['US4087856A', 'GB0226874D0', 'US7383587B2', 'GB0226875D0', 'US20040168047A1', 'DE602005023206D1', 'US8621607B2', 'US8136091B2', 'GB2448149B', 'US8578483B2', 'GB2482701C', 'US9798873B2']","['US20160314296A1', 'US9703733B2', 'CN105988713B', 'US9747218B2', 'US9870466B2', 'CN107315568B', 'US20180004946A1', 'US10650156B2', 'GB2562102B', 'CN109754062B', 'US11182507B2', 'US10942863B2', 'US11914726B2', 'GB2577878B', 'CN111353595A', 'CN111339060B', 'CN111400341B', 'GB2589897B', 'GB2589895B', 'US4087856A', 'GB0226874D0', 'US7383587B2', 'GB0226875D0', 'US20040168047A1', 'DE602005023206D1', 'US8621607B2', 'US8136091B2', 'GB2448149B', 'US8578483B2', 'GB2482701C', 'US9798873B2']","['CN105988713B', 'CN107315568B', 'CN109754062B', 'CN111353595A', 'CN111339060B', 'CN111400341B']",[],"['CN105988713B', 'CN107315568B', 'CN109754062B', 'CN111353595A', 'CN111339060B', 'CN111400341B']"
+IN2015CH03126A,Patent IN2015CH03126A ,IN,2015-07-10,"Embodiments of present disclosure disclose a method for providing assistance for cooking food items in real-time. The method comprises extracting instruction steps corresponding to food recipe from sources. The method comprises receiving sensor inputs from sensors indicating execution of each of the instruction steps. The sensor inputs comprises user actions for performing each of corresponding instruction steps, one or more cooking parameters of each of the corresponding instruction steps, and utilization of cooking articles during each of the corresponding instruction steps. The method comprises comparing the sensor inputs indicating the execution of each of the instruction steps with predefined cooking data of corresponding instruction steps. The method comprises providing recommendation associated with the execution of each of the instruction steps in real-time based on the comparison for providing assistance for cooking in real-time. Embodiments generate instruction steps of cooking in real-time. Figures 8 and 9",G09B19/0092,Nutrition,,,Bajpai Anvita,"['WO2018092155A1', 'CA2865598A1', 'US20170103676A1', 'EP3172996B1', 'US10628518B1', 'US11766151B2', 'EP3416529A4', 'US10412985B2', 'US10416138B2', 'WO2018200974A1', 'US10942932B2', 'CN108320748B', 'US11200811B2', 'CN110916470B', 'KR20200080389A', 'US11366437B2', 'US20210375155A1', 'US11756663B2', 'US12018948B2', 'US11727344B2', 'US11215467B1', 'US11308422B2', 'US11256514B1', 'CN113488140A', 'CN115842886A']","['DE202007018892U1', 'US8419434B2', 'US8429827B1', 'US20130171304A1']","['WO2018092155A1', 'CA2865598A1', 'US20170103676A1', 'EP3172996B1', 'US10628518B1', 'US11766151B2', 'EP3416529A4', 'US10412985B2', 'US10416138B2', 'WO2018200974A1', 'US10942932B2', 'CN108320748B', 'US11200811B2', 'CN110916470B', 'KR20200080389A', 'US11366437B2', 'US20210375155A1', 'US11756663B2', 'US12018948B2', 'US11727344B2', 'US11215467B1', 'US11308422B2', 'US11256514B1', 'CN113488140A', 'CN115842886A', 'DE202007018892U1', 'US8419434B2', 'US8429827B1', 'US20130171304A1']","['CN108320748B', 'CN110916470B', 'CN113488140A', 'CN115842886A']",[],"['CN108320748B', 'CN110916470B', 'CN113488140A', 'CN115842886A']"
+IN2014CH00859A,Patent IN2014CH00859A ,IN,2015-04-24,"Methods and apparatus are disclosed for fusing instructions to provide OR-test and AND-test functionality on multiple test sources. Some embodiments include fetching instructions, said instructions including a first instruction specifying a first operand destination, a second instruction specifying a second operand source, and a third instruction specifying a branch condition. A portion of the plurality of instructions are fused into a single micro-operation, the portion including both the first and second instructions if said first operand destination and said second operand source are the same, and said branch condition is dependent upon the second instruction. Some embodiments generate a novel test instruction dynamically by fusing one logical instruction with a prior-art test instruction. Other embodiments generate the novel test instruction through a just-in-time compiler. Some embodiments also fuse the novel test instruction with a subsequent conditional branch instruction, and perform a branch according to how the condition flag is set.",G06F9/30029,"Logical and Boolean instructions, e.g. XOR, NOT",,,Maxim Loktyukhin,"['US10310860B2', 'GB2480285A', 'US9823924B2', 'US9778932B2', 'US9513906B2', 'US9672037B2', 'US9804840B2', 'US9715385B2', 'US9471308B2', 'US9483266B2', 'KR20140134376A', 'US20160179542A1', 'US9952867B2', 'US10169044B2', 'US10409599B2', 'US9940136B2', 'US11755484B2', 'US10409606B2', 'US10191747B2', 'US10346168B2', 'US9946548B2', 'US10175988B2', 'US10095519B2', 'GB2543304B', 'US10324724B2', 'US20170192788A1', 'US10372452B2', 'GB2560892B', 'US10559056B2', 'US10592246B2', 'US11150908B2', 'CN108509202A', 'US10534881B2', 'US10996952B2', 'WO2021250689A1', 'CN112214242A', 'CN112346780B', 'US11714649B2', 'CN117193861B', 'CN118312220B']","['US2009200A', 'US5051940A', 'JPH0437926A', 'JP2876773B2', 'DE69412504T2', 'US5596763A', 'US5666300A', 'US6026485A', 'JPH09311786A', 'TW325552B', 'GB2317466B', 'US5860107A', 'JP3790607B2', 'US6961846B1', 'US6173393B1', 'US6237085B1', 'US6233675B1', 'US6338136B1', 'US6370625B1', 'US6647489B1', 'US6675376B2', 'US6889318B1', 'US7051190B2', 'US6920546B2', 'US20040128483A1', 'US7529914B2', 'US7817767B2', 'US8082430B2', 'US7849292B1', 'US7958181B2', 'US20090164758A1', 'US7937561B2', 'US9690591B2', 'US20110138156A1', 'US8856496B2', 'US8843729B2', 'US9672037B2', 'US9483266B2']","['US10310860B2', 'GB2480285A', 'US9823924B2', 'US9778932B2', 'US9513906B2', 'US9672037B2', 'US9804840B2', 'US9715385B2', 'US9471308B2', 'US9483266B2', 'KR20140134376A', 'US20160179542A1', 'US9952867B2', 'US10169044B2', 'US10409599B2', 'US9940136B2', 'US11755484B2', 'US10409606B2', 'US10191747B2', 'US10346168B2', 'US9946548B2', 'US10175988B2', 'US10095519B2', 'GB2543304B', 'US10324724B2', 'US20170192788A1', 'US10372452B2', 'GB2560892B', 'US10559056B2', 'US10592246B2', 'US11150908B2', 'CN108509202A', 'US10534881B2', 'US10996952B2', 'WO2021250689A1', 'CN112214242A', 'CN112346780B', 'US11714649B2', 'CN117193861B', 'CN118312220B', 'US2009200A', 'US5051940A', 'JPH0437926A', 'JP2876773B2', 'DE69412504T2', 'US5596763A', 'US5666300A', 'US6026485A', 'JPH09311786A', 'TW325552B', 'GB2317466B', 'US5860107A', 'JP3790607B2', 'US6961846B1', 'US6173393B1', 'US6237085B1', 'US6233675B1', 'US6338136B1', 'US6370625B1', 'US6647489B1', 'US6675376B2', 'US6889318B1', 'US7051190B2', 'US6920546B2', 'US20040128483A1', 'US7529914B2', 'US7817767B2', 'US8082430B2', 'US7849292B1', 'US7958181B2', 'US20090164758A1', 'US7937561B2', 'US9690591B2', 'US20110138156A1', 'US8856496B2', 'US8843729B2', 'US9672037B2', 'US9483266B2']","['CN108509202A', 'CN112214242A', 'CN112346780B', 'CN117193861B', 'CN118312220B']",[],"['CN108509202A', 'CN112214242A', 'CN112346780B', 'CN117193861B', 'CN118312220B']"
+IN2014MN01895A,Patent IN2014MN01895A ,IN,2015-07-10,"A processor is operative to execute two or more instruction sets, each in a different instruction set operating mode. As each instruction is executed, debug circuit comparison the current instruction set operating mode to a target instruction set operating mode sent by a programmer, and outputs an alert or indication in they match. The alert or indication may additionally be dependent upon the instruction address following within a predetermined target address range. The alert or indication may comprise a breakpoint signal that halts execution and/or it is output as an external signal of the processor. The instruction address at which the processor detects a match in the instruction set operating modes may additionally be output. Additionally or alternatively, the alert or indication may comprise starting or stopping a trace operation, causing an exception, or any other known debugger function.",G06F11/3636,Software debugging by tracing the execution of the program,,,Kevin Charles Burke,"['FR2864655B1', 'US7555605B2', 'US20080162900A1', 'CN101777021B', 'US9639451B2', 'GB2482701C', 'GB2483906C', 'US8914615B2', 'WO2013142948A1', 'KR102013582B1', 'JP2014085859A', 'US9268563B2', 'RU2635044C2', 'GB2527088B', 'US9626267B2', 'US10031834B2', 'US11269640B2', 'US10169196B2', 'US10534881B2', 'US10740220B2', 'US11468199B2', 'US12020062B2', 'US11586439B2', 'US11436187B2', 'CN113127285B']","['JPH06202907A', 'US5781750A', 'US5481684A', 'US5574927A', 'US5638525A', 'US6408386B1', 'US5774686A', 'US5680620A', 'JP3623840B2', 'US5963737A', 'DE19701166A1', 'US6631514B1', 'JPH11338710A', 'US6480818B1', 'US6430674B1', 'US7013456B1', 'US7065633B1', 'US6826748B1', 'US7275246B1', 'US6446197B1', 'US6449712B1', 'US7793261B1', 'US6609247B1', 'US7149878B1', 'US7093108B2', 'US6760864B2', 'US6901583B1', 'US7865948B1', 'US7017030B2', 'JP2003256237A', 'GB0225649D0', 'US20060149927A1', 'CN1216327C', 'EP1628235A1', 'US7958335B2', 'US7757221B2']","['FR2864655B1', 'US7555605B2', 'US20080162900A1', 'CN101777021B', 'US9639451B2', 'GB2482701C', 'GB2483906C', 'US8914615B2', 'WO2013142948A1', 'KR102013582B1', 'JP2014085859A', 'US9268563B2', 'RU2635044C2', 'GB2527088B', 'US9626267B2', 'US10031834B2', 'US11269640B2', 'US10169196B2', 'US10534881B2', 'US10740220B2', 'US11468199B2', 'US12020062B2', 'US11586439B2', 'US11436187B2', 'CN113127285B', 'JPH06202907A', 'US5781750A', 'US5481684A', 'US5574927A', 'US5638525A', 'US6408386B1', 'US5774686A', 'US5680620A', 'JP3623840B2', 'US5963737A', 'DE19701166A1', 'US6631514B1', 'JPH11338710A', 'US6480818B1', 'US6430674B1', 'US7013456B1', 'US7065633B1', 'US6826748B1', 'US7275246B1', 'US6446197B1', 'US6449712B1', 'US7793261B1', 'US6609247B1', 'US7149878B1', 'US7093108B2', 'US6760864B2', 'US6901583B1', 'US7865948B1', 'US7017030B2', 'JP2003256237A', 'GB0225649D0', 'US20060149927A1', 'CN1216327C', 'EP1628235A1', 'US7958335B2', 'US7757221B2']","['CN101777021B', 'RU2635044C2', 'CN113127285B']",['CN1216327C'],"['CN101777021B', 'RU2635044C2', 'CN113127285B', 'CN1216327C']"
+IN2014MN01242A,Patent IN2014MN01242A ,IN,2015-07-03,Disclosed are a method and a system for automatically deleting instant messaging information. The method comprises: an information sending terminal receiving an automatic deletion instruction from a sender user carrying the instruction in information to be sent and sending the information; and an information receiving terminal receiving and playing or displaying the information judging whether the information carries the automatic deletion instruction and automatically deleting the information if the information carries the automatic deletion instruction. According to the present invention the information can be automatically deleted according to the instruction of the sender user after the information receiving terminal receives and plays the information.,H04L51/18,Commands or executable codes,,,Xing Liang,"['CN102487490B', 'CN102833669A', 'CN103905609B', 'CN103927293B', 'CN104158720A', 'WO2015143682A1', 'WO2015143676A1', 'CN105120074A', 'KR101589111B1', 'CN105847130A', 'CN105791105A', 'CN107634894A', 'CN106100980A', 'CN106911855A', 'CN107086953A', 'CN107193446B', 'CN108540469B', 'CN112217714B']","['US6757713B1', 'US6324569B1', 'EP1406428A1', 'WO2005125114A1', 'CN100367813C', 'US20070073823A1', 'JP2007331121A', 'JP2008117250A', 'CN101321340A', 'US20090003552A1', 'CN101465904A', 'CN101483697A', 'US9130779B2', 'EP2362592A1', 'CN101867891B', 'CN101867660A', 'CN101958977A', 'US9331972B2', 'US8880625B2', 'CN102196419B', 'CN102487490B']","['CN102487490B', 'CN102833669A', 'CN103905609B', 'CN103927293B', 'CN104158720A', 'WO2015143682A1', 'WO2015143676A1', 'CN105120074A', 'KR101589111B1', 'CN105847130A', 'CN105791105A', 'CN107634894A', 'CN106100980A', 'CN106911855A', 'CN107086953A', 'CN107193446B', 'CN108540469B', 'CN112217714B', 'US6757713B1', 'US6324569B1', 'EP1406428A1', 'WO2005125114A1', 'CN100367813C', 'US20070073823A1', 'JP2007331121A', 'JP2008117250A', 'CN101321340A', 'US20090003552A1', 'CN101465904A', 'CN101483697A', 'US9130779B2', 'EP2362592A1', 'CN101867891B', 'CN101867660A', 'CN101958977A', 'US9331972B2', 'US8880625B2', 'CN102196419B', 'CN102487490B']","['CN102487490B', 'CN102833669A', 'CN103905609B', 'CN103927293B', 'CN104158720A', 'CN105120074A', 'CN105847130A', 'CN105791105A', 'CN107634894A', 'CN106100980A', 'CN106911855A', 'CN107086953A', 'CN107193446B', 'CN108540469B', 'CN112217714B']","['CN100367813C', 'CN101321340A', 'CN101465904A', 'CN101483697A', 'CN101867891B', 'CN101867660A', 'CN101958977A', 'CN102196419B', 'CN102487490B']","['CN102487490B', 'CN102833669A', 'CN103905609B', 'CN103927293B', 'CN104158720A', 'CN105120074A', 'CN105847130A', 'CN105791105A', 'CN107634894A', 'CN106100980A', 'CN106911855A', 'CN107086953A', 'CN107193446B', 'CN108540469B', 'CN112217714B', 'CN100367813C', 'CN101321340A', 'CN101465904A', 'CN101483697A', 'CN101867891B', 'CN101867660A', 'CN101958977A', 'CN102196419B', 'CN102487490B']"
+IN2014CN02111A,Patent IN2014CN02111A ,IN,2015-05-29,A data processing system (2) includes a single instruction multiple data register file (12) and single instruction multiple processing circuitry (14). The single instruction multiple data processing circuitry (14) supports execution of cryptographic processing instructions for performing parts of a hash algorithm. The operands are stored within the single instruction multiple data register file (12). The cryptographic support instructions do not follow normal lane based processing and generate output operands in which the different portions of the output operand depend upon multiple different elements within the input operand.,G06F21/602,Providing cryptographic facilities or services,,,Matthew James Horsnell,"['GB2497070B', 'US8953785B2', 'US8838997B2', 'US8874933B2', 'US9128698B2', 'GB2508343A', 'US9251377B2', 'US8924741B2', 'US10038550B2', 'US9425953B2', 'US10503510B2', 'US9912481B2', 'US9513913B2', 'US9317719B2', 'US9658854B2', 'US9467279B2', 'US10110566B2', 'KR102307105B1', 'US10348506B2', 'US10326596B2', 'US9680653B1', 'US10833847B2', 'US10491377B2', 'DE102021100538A1', 'US20220416999A1', 'CN113794552B', 'CN114095149B']","['US5918062A', 'US6377970B1', 'DE10061998A1', 'GB2389678A', 'US7599489B1', 'US20060190700A1', 'US7933405B2', 'US7536532B2', 'TWI335528B', 'US20090106526A1', 'GB2456775B', 'US7877582B2', 'US8879725B2', 'GB2464292A', 'US20100115232A1', 'US8595467B2', 'GB2497070B', 'US9251377B2', 'US9912481B2']","['GB2497070B', 'US8953785B2', 'US8838997B2', 'US8874933B2', 'US9128698B2', 'GB2508343A', 'US9251377B2', 'US8924741B2', 'US10038550B2', 'US9425953B2', 'US10503510B2', 'US9912481B2', 'US9513913B2', 'US9317719B2', 'US9658854B2', 'US9467279B2', 'US10110566B2', 'KR102307105B1', 'US10348506B2', 'US10326596B2', 'US9680653B1', 'US10833847B2', 'US10491377B2', 'DE102021100538A1', 'US20220416999A1', 'CN113794552B', 'CN114095149B', 'US5918062A', 'US6377970B1', 'DE10061998A1', 'GB2389678A', 'US7599489B1', 'US20060190700A1', 'US7933405B2', 'US7536532B2', 'TWI335528B', 'US20090106526A1', 'GB2456775B', 'US7877582B2', 'US8879725B2', 'GB2464292A', 'US20100115232A1', 'US8595467B2', 'GB2497070B', 'US9251377B2', 'US9912481B2']","['CN113794552B', 'CN114095149B']",[],"['CN113794552B', 'CN114095149B']"
+IN2015DN00243A,Patent IN2015DN00243A ,IN,2015-06-12,"The invention relates to an advanced device for welding training based on augmented reality simulation which can be updated remotely and which allows simulation of all types of industrial welding i.e. coated electrode (SMAW), MIG/MAG (GMAW,FCAW) and TIG (GTAW), all types of materials and all types of existing joints in all welding positions (1F to 4F, 1G to 6G,6GR) providing a very exact simulation of the behaviour of a real welding machine through the use of augmented reality technology which allows interaction between different elements in multiple layers all of which is implemented on a system for checking monitoring and evaluating students which allows the teacher to test the student in real time without the teacher being present in the training room including from a remote station.",G09B9/00,Simulators for teaching or training purposes,,,Barrera Juan José Chica,"['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1']","['US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1', 'US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B']","['CN101833892A', 'CN104704535A']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B', 'CN101833892A', 'CN104704535A']"
+IN2014CN00678A,Patent IN2014CN00678A ,IN,2015-04-03,A method of compressing a sequence of program instructions begins by examining a program instruction stream to identify a sequence of two or more instructions that meet a parameter. The identified sequence of two or more instructions is replaced by a selected type of layout instruction which is then compressed. A method of decompressing accesses an X index and a Yindex together as a compressed value. The compressed value is decompressed to a selected type of layout instruction which is decoded and replaced with a sequence of two or more instructions. An apparatus for decompressing includes a storage subsystem configured for storing compressed instructions wherein a compressed instruction comprises an X index and a Y index. A decompressor is configured for translating an X index and Y index accessed from the storage subsystem to a selected type of layout instruction which is decoded and replaced with a sequence of two or more instructions.,G06F9/30156,"Special purpose encoding of instructions, e.g. Gray coding",,,Sergei Larin,"['US9201652B2', 'US20140365884A1', 'US9330001B2', 'US9389854B2', 'KR102210997B1', 'US10063665B2', 'US10558808B2', 'US10565014B2', 'US11387844B2']","['JPH0440525A', 'US5463750A', 'JPH07168694A', 'JPH08161169A', 'JP3598589B2', 'US5924125A', 'JP3412462B2', 'DE19735948C1', 'JPH1185512A', 'US6199126B1', 'US20020112029A1', 'RU2236752C2', 'JP3556556B2', 'US6859870B1', 'US6779101B1', 'GB2366643B', 'ATE521032T1', 'US7028286B2', 'JP3806341B2', 'US6795897B2', 'JP4026753B2', 'EP1530755B1', 'GB2393274B', 'US7574583B2', 'US7249248B2', 'US7290122B2', 'CN100485606C', 'JP2008535528A', 'US7404042B2', 'US7616137B2', 'US8099587B2', 'CN101075903B', 'CN100492279C', 'KR100875836B1', 'US20100223237A1', 'US8281151B2', 'US9201652B2']","['US9201652B2', 'US20140365884A1', 'US9330001B2', 'US9389854B2', 'KR102210997B1', 'US10063665B2', 'US10558808B2', 'US10565014B2', 'US11387844B2', 'JPH0440525A', 'US5463750A', 'JPH07168694A', 'JPH08161169A', 'JP3598589B2', 'US5924125A', 'JP3412462B2', 'DE19735948C1', 'JPH1185512A', 'US6199126B1', 'US20020112029A1', 'RU2236752C2', 'JP3556556B2', 'US6859870B1', 'US6779101B1', 'GB2366643B', 'ATE521032T1', 'US7028286B2', 'JP3806341B2', 'US6795897B2', 'JP4026753B2', 'EP1530755B1', 'GB2393274B', 'US7574583B2', 'US7249248B2', 'US7290122B2', 'CN100485606C', 'JP2008535528A', 'US7404042B2', 'US7616137B2', 'US8099587B2', 'CN101075903B', 'CN100492279C', 'KR100875836B1', 'US20100223237A1', 'US8281151B2', 'US9201652B2']",[],"['RU2236752C2', 'CN100485606C', 'CN101075903B', 'CN100492279C']","['RU2236752C2', 'CN100485606C', 'CN101075903B', 'CN100492279C']"
+IN2014CN03071A,Patent IN2014CN03071A ,IN,2015-07-31,Methods devices and systems for detecting return oriented programming (ROP) exploits are disclosed. A system includes a processor a main memory and a cache memory. A cache monitor develops an instruction loading profile by monitoring accesses to cached instructions found in the cache memory and misses to instructions not currently in the cache memory. A remedial action unit terminates execution of one or more of the valid code sequences if the instruction loading profile is indicative of execution of an ROP exploit involving one or more valid code sequences. The instruction loading profile may be a hit/miss ratio derived from monitoring cache hits relative to cache misses. The ROP exploits may include code snippets that each include an executable instruction and a return instruction from valid code sequences.,G06F21/52,"Monitoring users, programs or devices to maintain the integrity of platforms, e.g. of processors, firmware or operating systems during program execution, e.g. stack integrity ; Preventing unwanted data erasure; Buffer overflow",,,Daniel Komaromy,"['US9268945B2', 'US8839429B2', 'EP2802988A1', 'US9256730B2', 'US9177147B2', 'US9223979B2', 'WO2014189510A1', 'US10310863B1', 'US9292684B2', 'US9465936B2', 'WO2015152893A1', 'US9390264B2', 'US20160196427A1', 'US9904780B2', 'US9589133B2', 'CN104268471B', 'EP2996034B1', 'US9519773B2', 'EP3195177A1', 'US9465938B2', 'US9501637B2', 'US9646154B2', 'US9940484B2', 'CN104732139A', 'SG10201500921QA', 'US9842209B2', 'SG10201504066QA', 'WO2017030805A1', 'US10019572B1', 'US10032031B1', 'US10282224B2', 'US20170091454A1', 'US9576138B1', 'US9767292B2', 'US10437998B2', 'US10419423B2', 'US10878091B2', 'US10423792B2', 'US10437990B2', 'US10489592B1', 'DE102017124805B4', 'US11403107B2', 'CN112395598B', 'US11445225B2']","['US5956477A', 'US6047363A', 'US6134710A', 'EP1331539B1', 'US7086088B2', 'JP4086846B2', 'US7954102B2', 'GB0226875D0', 'US7134029B2', 'US7392370B2', 'KR100586500B1', 'FR2877118B1', 'US7730531B2', 'US7818747B1', 'US20070150881A1', 'JP4915774B2', 'US20080263324A1', 'US8447962B2', 'JP2009217385A', 'US8490061B2', 'US8689201B2', 'CN101924761B', 'US8997218B2', 'US8839429B2']","['US9268945B2', 'US8839429B2', 'EP2802988A1', 'US9256730B2', 'US9177147B2', 'US9223979B2', 'WO2014189510A1', 'US10310863B1', 'US9292684B2', 'US9465936B2', 'WO2015152893A1', 'US9390264B2', 'US20160196427A1', 'US9904780B2', 'US9589133B2', 'CN104268471B', 'EP2996034B1', 'US9519773B2', 'EP3195177A1', 'US9465938B2', 'US9501637B2', 'US9646154B2', 'US9940484B2', 'CN104732139A', 'SG10201500921QA', 'US9842209B2', 'SG10201504066QA', 'WO2017030805A1', 'US10019572B1', 'US10032031B1', 'US10282224B2', 'US20170091454A1', 'US9576138B1', 'US9767292B2', 'US10437998B2', 'US10419423B2', 'US10878091B2', 'US10423792B2', 'US10437990B2', 'US10489592B1', 'DE102017124805B4', 'US11403107B2', 'CN112395598B', 'US11445225B2', 'US5956477A', 'US6047363A', 'US6134710A', 'EP1331539B1', 'US7086088B2', 'JP4086846B2', 'US7954102B2', 'GB0226875D0', 'US7134029B2', 'US7392370B2', 'KR100586500B1', 'FR2877118B1', 'US7730531B2', 'US7818747B1', 'US20070150881A1', 'JP4915774B2', 'US20080263324A1', 'US8447962B2', 'JP2009217385A', 'US8490061B2', 'US8689201B2', 'CN101924761B', 'US8997218B2', 'US8839429B2']","['CN104268471B', 'CN104732139A', 'CN112395598B']",['CN101924761B'],"['CN104268471B', 'CN104732139A', 'CN112395598B', 'CN101924761B']"
+IN2014CN02754A,Patent IN2014CN02754A ,IN,2015-07-03,The present invention provides a traveling plan creation device which creates a traveling pattern in which the energy consumption is small while the target traveling time is achieved. A traveling plan creation device (51) is provided with: a traveling simulation unit (15) which using route conditions train performance and traveling conditions held in a storage unit (14) creates from a traveling instruction a traveling pattern for traveling a traveling section together with the traveling time and energy consumption therein; an initial traveling pattern setting unit (16) which sets a fastest traveling pattern as the initial value of a reference traveling pattern to be repeatedly processed; a traveling instruction draft creation unit (17) which creates a plurality of traveling instruction drafts obtained by changing the reference traveling pattern such that the traveling time increases a little and the energy consumption decreases; an optimum traveling pattern selection unit (19) which selects from among the plurality of traveling instruction drafts an optimum traveling pattern in which the effect of reducing the energy consumption is maximum; and a reference traveling pattern updating unit (22) which updates the reference traveling pattern until the traveling time in the optimum traveling pattern becomes equal to the target traveling time.,B61L27/16,Trackside optimisation of vehicle or train operation,,,Koki Yoshimoto,"['JP6118124B2', 'US9081651B2', 'CN103481918B', 'JP6296716B2', 'JP6305238B2', 'JP6208559B2', 'JP6250371B2', 'CN105980232B', 'US9346452B2', 'CN104192176B', 'JP6334282B2', 'US9637024B2', 'US20160332585A1', 'JP6563757B2', 'JP6659335B2', 'DE102017205893A1', 'JP2017210181A', 'JP6736392B2', 'US10279823B2', 'US10137912B2', 'JP7066365B2', 'KR102134031B1', 'JP2020191697A', 'RU2740418C1', 'CN110758491B', 'KR20210077869A', 'US12024214B2', 'CN112124380B', 'JP7365320B2', 'CN113158325B', 'IT202100007961A1', 'CN113401182B', 'CN113204737B', 'CN114044032B', 'CN113879183B', 'CN115871755B', 'CN117261974B']","['JPH04287766A', 'JP3198170B2', 'JP3296381B2', 'JP2858529B2', 'JPH07327302A', 'US7092894B1', 'JP3881302B2', 'AU2006235003B2', 'US8768543B2', 'US8082071B2', 'JP2009177908A', 'JP5271772B2', 'JP5366621B2', 'JP5414810B2', 'US20140088865A1']","['JP6118124B2', 'US9081651B2', 'CN103481918B', 'JP6296716B2', 'JP6305238B2', 'JP6208559B2', 'JP6250371B2', 'CN105980232B', 'US9346452B2', 'CN104192176B', 'JP6334282B2', 'US9637024B2', 'US20160332585A1', 'JP6563757B2', 'JP6659335B2', 'DE102017205893A1', 'JP2017210181A', 'JP6736392B2', 'US10279823B2', 'US10137912B2', 'JP7066365B2', 'KR102134031B1', 'JP2020191697A', 'RU2740418C1', 'CN110758491B', 'KR20210077869A', 'US12024214B2', 'CN112124380B', 'JP7365320B2', 'CN113158325B', 'IT202100007961A1', 'CN113401182B', 'CN113204737B', 'CN114044032B', 'CN113879183B', 'CN115871755B', 'CN117261974B', 'JPH04287766A', 'JP3198170B2', 'JP3296381B2', 'JP2858529B2', 'JPH07327302A', 'US7092894B1', 'JP3881302B2', 'AU2006235003B2', 'US8768543B2', 'US8082071B2', 'JP2009177908A', 'JP5271772B2', 'JP5366621B2', 'JP5414810B2', 'US20140088865A1']","['CN103481918B', 'CN105980232B', 'CN104192176B', 'RU2740418C1', 'CN110758491B', 'CN112124380B', 'CN113158325B', 'CN113401182B', 'CN113204737B', 'CN114044032B', 'CN113879183B', 'CN115871755B', 'CN117261974B']",[],"['CN103481918B', 'CN105980232B', 'CN104192176B', 'RU2740418C1', 'CN110758491B', 'CN112124380B', 'CN113158325B', 'CN113401182B', 'CN113204737B', 'CN114044032B', 'CN113879183B', 'CN115871755B', 'CN117261974B']"
+IN2014DN00245A,Patent IN2014DN00245A ,IN,2015-06-05,A branch prediction unit BPU (500) for prediction of a next taken branch instruction in a processing unit (100). The BPU (500) comprises a pattern history memory (504) comprising branch source addresses and branch indicators; a branch target buffer (506) comprising branch targets; and branch prediction logical circuit (502). By means of a search PC the circuit finds in the memory a branch indicator indicating a predicted taken branch instruction. The circuit selects a first found branch indicator as an indication of a first predicted taken branch instruction. Using the first found branch indicator the circuit retrieves from the memory a branch source address of the first predicted taken branch instruction. When the retrieved branch source address is the branch source address nearest to the search PC the circuit outputs as next PC a branch target retrieved from the buffer. Then the prediction stops.,G06F9/38,"Concurrent instruction execution, e.g. pipeline or look ahead",,,Jean Paul Smeets,"['US9639368B2', 'US9875106B2', 'US10402200B2', 'US9934041B2', 'US10725685B2', 'US10210090B1', 'US11086629B2', 'US12067399B2']","['GB9521978D0', 'US6957327B1', 'US7493480B2', 'KR100980076B1', 'KR100591769B1', 'US7415638B2', 'CN105468334A']","['US9639368B2', 'US9875106B2', 'US10402200B2', 'US9934041B2', 'US10725685B2', 'US10210090B1', 'US11086629B2', 'US12067399B2', 'GB9521978D0', 'US6957327B1', 'US7493480B2', 'KR100980076B1', 'KR100591769B1', 'US7415638B2', 'CN105468334A']",[],['CN105468334A'],['CN105468334A']
+IN2012DN01825A,Patent IN2012DN01825A ,IN,2015-06-05,"The present teachings provide methods, devices, systems, and materials for performing electrophoresis in an automated fashion. The electrophoresis system may simultaneously image gel during an electrophoresis run. In some embodiments, the electrophoresis system may analyze an imaged gel during or after electrophoresis. The device may comprise a gel processing system, a gel illumination system, an image capture system, and an image analysis all housed within a housing.",G01N27/44743,Introducing samples,,,Timothy Vale Updyke,"['US20110042217A1', 'US8715476B2', 'WO2012012382A1', 'USD667134S1', 'USD719277S1', 'USD794823S1', 'US9234874B2', 'US20120247958A1', 'WO2012149180A2', 'US20130111404A1', 'EP2856134A4', 'CN103512871B', 'GB2506425A', 'US9061236B2', 'CN103207149A', 'CN103234907B', 'GB201315011D0', 'USD733919S1', 'USD733918S1', 'CN103698381B', 'CN104764789B', 'WO2015096063A1', 'US10598631B2', 'CN106133514A', 'US9835587B2', 'CN106471363A', 'JP2016102715A', 'EP3234578A4', 'USD806894S1', 'JP6444817B2', 'CN105466993A', 'USD851779S1', 'USD859688S1', 'USD816865S1', 'USD849963S1', 'EP3374764B1', 'USD792603S1', 'USD856528S1', 'CN105734604B', 'CN105955408A', 'US20180172629A1', 'CA3037799A1', 'US20180372680A1', 'USD875963S1', 'CN111465858A', 'USD920137S1', 'JP7167531B2', 'US20220281913A1', 'CN110988094A', 'CN112473576B', 'US11783453B2', 'CN118401832A', 'CN115131784B', 'CN115440314B', 'CN115937052B']","['US3620947A', 'US4164461A', 'US4164464A', 'US4294684A', 'USD282352S', 'US4574040A', 'US4608146A', 'JPS62127662A', 'USD303007S', 'US4773984A', 'US5147522A', 'US4810348A', 'US4883577A', 'US4795541A', 'US4830725A', 'USD315952S', 'USD315951S', 'JPH083481B2', 'US5073246A', 'FR2677894B1', 'US5338426A', 'US5284565A', 'US5460709A', 'US5318682A', 'US5411657A', 'US6783651B1', 'WO1995031717A1', 'US5626735A', 'USD367713S', 'US6110344A', 'US5627022A', 'US5514255A', 'US5618399A', 'US5972188A', 'US5569369A', 'US5717602A', 'US5785835A', 'JP2000510587A', 'US5632877A', 'US5656145A', 'US5949899A', 'US5827418A', 'AUPO403896A0', 'US5800691A', 'US5951838A', 'US5897760A', 'US5891314A', 'US5799773A', 'US5938906A', 'US6231813B1', 'US5989403A', 'US6139709A', 'US5993628A', 'US6068754A', 'US6063250A', 'USD430304S', 'US6162342A', 'AUPP960699A0', 'US6677114B1', 'US6379519B1', 'US6932895B2', 'US6298874B1', 'US6521111B1', 'US7189316B2', 'US20030207271A1', 'US6600254B2', 'US7601251B2', 'CA2453390A1', 'US20030157720A1', 'US6689267B2', 'WO2003102539A2', 'US6878949B2', 'JP2004205226A', 'USD505729S1', 'US20050103633A1', 'JP2005164459A', 'IL160869A0', 'USD516733S1', 'JP2006222222A', 'US20060176481A1', 'US8092665B2', 'JP4441653B2', 'JP4728072B2', 'US7588673B2', 'JP2007232475A', 'US20070284250A1', 'JP2010502962A', 'USD564378S1', 'DE102007015775A1', 'US20080272002A1', 'EP2158328B1', 'WO2009027983A1', 'DE102008020428B3', 'US20110042217A1', 'USD667134S1', 'USD698037S1', 'USD719277S1', 'US9234874B2', 'US20120247958A1', 'IL213709A', 'US9400260B2', 'US9759682B2']","['US20110042217A1', 'US8715476B2', 'WO2012012382A1', 'USD667134S1', 'USD719277S1', 'USD794823S1', 'US9234874B2', 'US20120247958A1', 'WO2012149180A2', 'US20130111404A1', 'EP2856134A4', 'CN103512871B', 'GB2506425A', 'US9061236B2', 'CN103207149A', 'CN103234907B', 'GB201315011D0', 'USD733919S1', 'USD733918S1', 'CN103698381B', 'CN104764789B', 'WO2015096063A1', 'US10598631B2', 'CN106133514A', 'US9835587B2', 'CN106471363A', 'JP2016102715A', 'EP3234578A4', 'USD806894S1', 'JP6444817B2', 'CN105466993A', 'USD851779S1', 'USD859688S1', 'USD816865S1', 'USD849963S1', 'EP3374764B1', 'USD792603S1', 'USD856528S1', 'CN105734604B', 'CN105955408A', 'US20180172629A1', 'CA3037799A1', 'US20180372680A1', 'USD875963S1', 'CN111465858A', 'USD920137S1', 'JP7167531B2', 'US20220281913A1', 'CN110988094A', 'CN112473576B', 'US11783453B2', 'CN118401832A', 'CN115131784B', 'CN115440314B', 'CN115937052B', 'US3620947A', 'US4164461A', 'US4164464A', 'US4294684A', 'USD282352S', 'US4574040A', 'US4608146A', 'JPS62127662A', 'USD303007S', 'US4773984A', 'US5147522A', 'US4810348A', 'US4883577A', 'US4795541A', 'US4830725A', 'USD315952S', 'USD315951S', 'JPH083481B2', 'US5073246A', 'FR2677894B1', 'US5338426A', 'US5284565A', 'US5460709A', 'US5318682A', 'US5411657A', 'US6783651B1', 'WO1995031717A1', 'US5626735A', 'USD367713S', 'US6110344A', 'US5627022A', 'US5514255A', 'US5618399A', 'US5972188A', 'US5569369A', 'US5717602A', 'US5785835A', 'JP2000510587A', 'US5632877A', 'US5656145A', 'US5949899A', 'US5827418A', 'AUPO403896A0', 'US5800691A', 'US5951838A', 'US5897760A', 'US5891314A', 'US5799773A', 'US5938906A', 'US6231813B1', 'US5989403A', 'US6139709A', 'US5993628A', 'US6068754A', 'US6063250A', 'USD430304S', 'US6162342A', 'AUPP960699A0', 'US6677114B1', 'US6379519B1', 'US6932895B2', 'US6298874B1', 'US6521111B1', 'US7189316B2', 'US20030207271A1', 'US6600254B2', 'US7601251B2', 'CA2453390A1', 'US20030157720A1', 'US6689267B2', 'WO2003102539A2', 'US6878949B2', 'JP2004205226A', 'USD505729S1', 'US20050103633A1', 'JP2005164459A', 'IL160869A0', 'USD516733S1', 'JP2006222222A', 'US20060176481A1', 'US8092665B2', 'JP4441653B2', 'JP4728072B2', 'US7588673B2', 'JP2007232475A', 'US20070284250A1', 'JP2010502962A', 'USD564378S1', 'DE102007015775A1', 'US20080272002A1', 'EP2158328B1', 'WO2009027983A1', 'DE102008020428B3', 'US20110042217A1', 'USD667134S1', 'USD698037S1', 'USD719277S1', 'US9234874B2', 'US20120247958A1', 'IL213709A', 'US9400260B2', 'US9759682B2']","['CN103512871B', 'CN103207149A', 'CN103234907B', 'CN103698381B', 'CN104764789B', 'CN106133514A', 'CN106471363A', 'CN105466993A', 'CN105734604B', 'CN105955408A', 'CN111465858A', 'CN110988094A', 'CN112473576B', 'CN118401832A', 'CN115131784B', 'CN115440314B', 'CN115937052B']",[],"['CN103512871B', 'CN103207149A', 'CN103234907B', 'CN103698381B', 'CN104764789B', 'CN106133514A', 'CN106471363A', 'CN105466993A', 'CN105734604B', 'CN105955408A', 'CN111465858A', 'CN110988094A', 'CN112473576B', 'CN118401832A', 'CN115131784B', 'CN115440314B', 'CN115937052B']"
+IN2014DN08962A,Patent IN2014DN08962A ,IN,2015-05-22,In one aspect the teachings herein provide a system and method for reusing the PUCCH format 3 to address the new HARQ ACK feedback cases encountered in Rel 11 where different UL/DL configurations are involved in the CA configuration of a UE such as Rel 11 interband TDD CA with different UL/DL configurations on different bands. The various embodiments illustrated by way of example in this disclosure enable reliable and efficient HARQ ACK feedback for Rel 11 TDD CA without a substantial increase in specification and implementation complexity.,H04L1/1812,Hybrid protocols; Hybrid automatic repeat request [HARQ],,,Daniel Larsson,"['US8953635B2', 'US9749094B2', 'US9407302B2', 'WO2015042835A1', 'WO2015119448A1', 'CN105656605B', 'CN106470089B', 'US10341057B2', 'CN107295663B', 'US10512065B2', 'CN110692212B', 'CN116170123A', 'WO2019028703A1', 'US11108363B2', 'CN112351504B', 'US11736076B2', 'US11894767B2', 'US11619957B2', 'US11699950B2', 'US12101063B2', 'US11942899B2', 'US12057813B2', 'US11962338B2', 'US11906992B2']","['US8345605B2', 'US9350581B2', 'US8472357B2', 'EP2471209A1', 'US9184899B2', 'WO2011075037A1', 'CN102640558A', 'KR101750371B1', 'US9179395B2', 'EP2561715B1', 'CN102377548A', 'US9106419B2', 'US8913535B2', 'CN102098151B', 'CN102142941B', 'CN102916789B', 'AU2012294686B2', 'JP5938099B2', 'WO2013043025A2', 'CN103828273B', 'JP5948423B2', 'CN109412775B']","['US8953635B2', 'US9749094B2', 'US9407302B2', 'WO2015042835A1', 'WO2015119448A1', 'CN105656605B', 'CN106470089B', 'US10341057B2', 'CN107295663B', 'US10512065B2', 'CN110692212B', 'CN116170123A', 'WO2019028703A1', 'US11108363B2', 'CN112351504B', 'US11736076B2', 'US11894767B2', 'US11619957B2', 'US11699950B2', 'US12101063B2', 'US11942899B2', 'US12057813B2', 'US11962338B2', 'US11906992B2', 'US8345605B2', 'US9350581B2', 'US8472357B2', 'EP2471209A1', 'US9184899B2', 'WO2011075037A1', 'CN102640558A', 'KR101750371B1', 'US9179395B2', 'EP2561715B1', 'CN102377548A', 'US9106419B2', 'US8913535B2', 'CN102098151B', 'CN102142941B', 'CN102916789B', 'AU2012294686B2', 'JP5938099B2', 'WO2013043025A2', 'CN103828273B', 'JP5948423B2', 'CN109412775B']","['CN105656605B', 'CN106470089B', 'CN107295663B', 'CN110692212B', 'CN116170123A', 'CN112351504B']","['CN102640558A', 'CN102377548A', 'CN102098151B', 'CN102142941B', 'CN102916789B', 'CN103828273B', 'CN109412775B']","['CN105656605B', 'CN106470089B', 'CN107295663B', 'CN110692212B', 'CN116170123A', 'CN112351504B', 'CN102640558A', 'CN102377548A', 'CN102098151B', 'CN102142941B', 'CN102916789B', 'CN103828273B', 'CN109412775B']"
+IN2014CN03302A,Patent IN2014CN03302A ,IN,2015-07-03,An objective of the present invention is to subtract only the difference between bulge and dent mark heights and compute and acquire only the heights of bulges and dents even when bulges and dents are present so as to overlap in the bulge and dent marks. Provided is a tire shape inspection method for inspecting sidewall surface shape defects in inspected tires using an image of a sample tire having sidewall surfaces on which bulge and dent marks are formed. The method executes the following steps: first as a teaching operation step boundary lines of the bulge and dent marks are detected in a sample source image of a sample tire a mask image is generated which denotes the boundary lines regions are removed from the sample source image which correspond to the boundary lines which are denoted in the mask image and a height offset image is generated which represents the heights of the remaining regions with one or more offset values. Next as an inspection operation step the height offset image is subtracted from an inspection image of the inspected tire the boundary regions which the mask image represents are removed and on the basis of the obtained bulge/dent removal image shape defects of the sidewall surfaces of the inspected tire are inspected.,G01M17/02,Tyres,,,Eiji Takahashi,"['US9361641B2', 'US9110032B2', 'JP5923054B2', 'JP6267481B2', 'JP5775132B2', 'US10267710B2', 'JP5831592B2', 'JP6159294B2', 'FR3022380A1', 'JP6289283B2', 'JP6413630B2', 'EP3237837B1', 'MX367880B', 'JP6279163B1', 'JP6591762B2', 'MX2017016138A', 'CN109416243A', 'CN107121084B', 'CN107121058B', 'KR101802812B1', 'CN109344832B', 'CN109325930B', 'JP7018380B2', 'RU2764644C1', 'WO2020121306A1', 'JP7220128B2', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']","['US4910411A', 'US6381547B1', 'US6831996B1', 'JP4034168B2', 'JP4679073B2', 'US7269997B2', 'JP5046688B2', 'EP2020594B1', 'EP2295930B1', 'JP5302701B2', 'KR100998058B1', 'US8712720B2', 'JP5371848B2']","['US9361641B2', 'US9110032B2', 'JP5923054B2', 'JP6267481B2', 'JP5775132B2', 'US10267710B2', 'JP5831592B2', 'JP6159294B2', 'FR3022380A1', 'JP6289283B2', 'JP6413630B2', 'EP3237837B1', 'MX367880B', 'JP6279163B1', 'JP6591762B2', 'MX2017016138A', 'CN109416243A', 'CN107121084B', 'CN107121058B', 'KR101802812B1', 'CN109344832B', 'CN109325930B', 'JP7018380B2', 'RU2764644C1', 'WO2020121306A1', 'JP7220128B2', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B', 'US4910411A', 'US6381547B1', 'US6831996B1', 'JP4034168B2', 'JP4679073B2', 'US7269997B2', 'JP5046688B2', 'EP2020594B1', 'EP2295930B1', 'JP5302701B2', 'KR100998058B1', 'US8712720B2', 'JP5371848B2']","['CN109416243A', 'CN107121084B', 'CN107121058B', 'CN109344832B', 'CN109325930B', 'RU2764644C1', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']",[],"['CN109416243A', 'CN107121084B', 'CN107121058B', 'CN109344832B', 'CN109325930B', 'RU2764644C1', 'CN110766684B', 'CN113516608B', 'CN113554582B', 'CN112581463B', 'CN115439476B', 'CN117249778B', 'CN118010739B']"
+IN2013CH01206A,Patent IN2013CH01206A ,IN,2015-08-14,"A system, medium and method of managing, via a gateway device, to wirelessly communicate with a plurality of network appliances in a closed local area network is disclosed. A data message is received from a first network appliance configured to communicate data in association with a first application profile. The first application profile is retrieved from a locally stored application profile database upon being identified. A database is accessed at the gateway device containing policy information of the first network appliance and evaluated for one or more policy parameters. A first instruction command is generated at the gateway device based on the accessed policy information, wherein the instruction command conforms with the first application profile to instruct the first network appliance to perform a specified action. The instruction command is wirelessly transmitted from the gateway device to the first network appliance to cause it to perform a specified action. REF FIG: 1",H04L41/0894,Policy-based network configuration management,,,Ghosh Animikh,"['US20150134801A1', 'US20160014158A1', 'US10382294B2', 'WO2016176434A1', 'CN105099931A', 'US10644968B1', 'US10897374B2', 'US11893092B2', 'CN113381914B']","['US20070233285A1', 'US7181293B2', 'US20160277261A9', 'US8085660B2', 'JP2009075735A', 'US8160752B2', 'US20110061014A1', 'US20110063126A1', 'US8868721B2', 'US9026261B2', 'US8509954B2', 'US8086757B2', 'US20110314163A1', 'US20120310377A1', 'CN103858119B9', 'US9798298B2', 'US8554376B1']","['US20150134801A1', 'US20160014158A1', 'US10382294B2', 'WO2016176434A1', 'CN105099931A', 'US10644968B1', 'US10897374B2', 'US11893092B2', 'CN113381914B', 'US20070233285A1', 'US7181293B2', 'US20160277261A9', 'US8085660B2', 'JP2009075735A', 'US8160752B2', 'US20110061014A1', 'US20110063126A1', 'US8868721B2', 'US9026261B2', 'US8509954B2', 'US8086757B2', 'US20110314163A1', 'US20120310377A1', 'CN103858119B9', 'US9798298B2', 'US8554376B1']","['CN105099931A', 'CN113381914B']",['CN103858119B9'],"['CN105099931A', 'CN113381914B', 'CN103858119B9']"
+IN2012DN05158A,Patent IN2012DN05158A ,IN,2015-10-23,"Methods of selling endowment policies and funding an education are provided. In a general embodiment, the method includes selling a first endowment policy to an individual, allowing the individual to purchase additional endowment policies at the same price as the first endowment policy, and reminding the individual using an automatic computer generated reminder of the right to purchase additional endowment policies. The endowment policies can be used to fund an education.",B32B5/12,"Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by structural features of a fibrous or filamentary layer characterised by the relative arrangement of fibres or filaments of different layers, e.g. the fibres or filaments being parallel or perpendicular to each other",,,Koen Van Putten,"['BR112015022447A8', 'JP6676534B2', 'ES2861159T3', 'WO2018122120A1', 'US11040521B2', 'US11541636B2', 'KR101875393B1', 'ES1219654Y', 'US11530513B2', 'CN111469495A', 'CN112549711A', 'EP4219160A4']","['NL177840C', 'NL177759B', 'US4623574A', 'EP0205960B1', 'CA2075211A1', 'NL9100279A', 'DE4128024A1', 'BE1007230A3', 'JP2007520371A', 'IL224437A', 'US7687412B2', 'TR201900184T4', 'WO2007122010A2', 'CN101178295A', 'KR20090094851A', 'US8969221B2', 'US8017529B1', 'US7976932B1', 'WO2009121902A1', 'BRPI0911852A2', 'US9623626B2']","['BR112015022447A8', 'JP6676534B2', 'ES2861159T3', 'WO2018122120A1', 'US11040521B2', 'US11541636B2', 'KR101875393B1', 'ES1219654Y', 'US11530513B2', 'CN111469495A', 'CN112549711A', 'EP4219160A4', 'NL177840C', 'NL177759B', 'US4623574A', 'EP0205960B1', 'CA2075211A1', 'NL9100279A', 'DE4128024A1', 'BE1007230A3', 'JP2007520371A', 'IL224437A', 'US7687412B2', 'TR201900184T4', 'WO2007122010A2', 'CN101178295A', 'KR20090094851A', 'US8969221B2', 'US8017529B1', 'US7976932B1', 'WO2009121902A1', 'BRPI0911852A2', 'US9623626B2']","['BR112015022447A8', 'CN111469495A', 'CN112549711A']","['CN101178295A', 'BRPI0911852A2']","['BR112015022447A8', 'CN111469495A', 'CN112549711A', 'CN101178295A', 'BRPI0911852A2']"
+IN2013MU02062A,Patent IN2013MU02062A ,IN,2015-06-12,"Embodiments of the present invention may enable a user of an electronic device to setup a game-based environment within the electronic device that can be used as an authentication platform to prevent access by illegitimate or unauthorized users. The communication device may include a display screen, a processor, and a memory coupled to the processor. The memory may include a database and an instruction set. The database may store pre-defined access patterns that can be used in the authentication process. Further, the instruction set may include instructions executable by the processor to monitor inputs made by a new user in the game based environment. Furthermore, the instructions executable by the processor may match the inputs of the new user with the pre-defined access patterns to check the authentication of a new user.",G06F21/36,User authentication by graphic or iconic representation,,,Neil O'connor,"['US8931070B2', 'US9760785B2', 'US9721175B2', 'US10235508B2', 'US20150039703A1', 'US9892576B2', 'US9071618B1', 'US9621722B2', 'US10082954B2', 'US9554273B1', 'CN105498210B', 'US10044710B2', 'US10482462B1', 'CN105978905A', 'US10864444B1', 'CN111783046A', 'US11354395B2', 'US11095678B2', 'EP3518130A1', 'US11050752B2', 'US10904236B1']","['US6934860B1', 'US20030159070A1', 'AU2001277033A1', 'US7606560B2', 'US20040055777A1', 'US8996423B2', 'US7552467B2', 'US20080033641A1', 'JP4891035B2', 'CN101043337A', 'EP2947592B1', 'EP2104052A1', 'KR100986850B1', 'US8506399B2', 'US20130018803A1', 'CN102486832A']","['US8931070B2', 'US9760785B2', 'US9721175B2', 'US10235508B2', 'US20150039703A1', 'US9892576B2', 'US9071618B1', 'US9621722B2', 'US10082954B2', 'US9554273B1', 'CN105498210B', 'US10044710B2', 'US10482462B1', 'CN105978905A', 'US10864444B1', 'CN111783046A', 'US11354395B2', 'US11095678B2', 'EP3518130A1', 'US11050752B2', 'US10904236B1', 'US6934860B1', 'US20030159070A1', 'AU2001277033A1', 'US7606560B2', 'US20040055777A1', 'US8996423B2', 'US7552467B2', 'US20080033641A1', 'JP4891035B2', 'CN101043337A', 'EP2947592B1', 'EP2104052A1', 'KR100986850B1', 'US8506399B2', 'US20130018803A1', 'CN102486832A']","['CN105498210B', 'CN105978905A', 'CN111783046A']","['CN101043337A', 'CN102486832A']","['CN105498210B', 'CN105978905A', 'CN111783046A', 'CN101043337A', 'CN102486832A']"
+IN2015DN04197A,Patent IN2015DN04197A ,IN,2015-10-16,Disclosed are a recording method a playing method a device a terminal and a system which belong to the technical field of computers. The recording method comprises: receiving a flag start instruction in the process of recording audio data; according to the flag start instruction establishing a flag event and recording a parameter of the flag event the flag event being used for flagging the audio data; receiving a flag end instruction; according to the flag end instruction completing the record of the parameter of the flag event so as to obtain a flag data structure; and storing the audio data and the flag data structure so as to obtain an audio file. The recording device comprises a first receiving module a recording module a second receiving module a first generation module and a second generation module. The present disclosure solves the problem of reduction of the information acquisition efficiency caused by a complex operation of searching for the predetermined content in the audio data by means of repeated audition thereby achieving the effect of improving the information acquisition efficiency.,G11B27/34,Indicating arrangements,,,Wei Han,"['CN103400592A', 'CN104079890A', 'CN105679349A', 'CN104505108B', 'CN104572882B', 'CN104657074A', 'CN104751846B', 'CN107026931A', 'CN105895132B', 'CN106131324A', 'CN106571137A', 'CN106559572B', 'CN106603840A', 'CN108093124B', 'CN108053831A', 'CN108737884B', 'CN109195044B', 'CN109815360B', 'CN111833917A', 'CN112311658A', 'CN113539313A', 'CN114999464A']","['US6934461B1', 'US7610597B1', 'US7319764B1', 'EP1636733B1', 'JP4244331B2', 'US8295682B1', 'US20080027726A1', 'CN101246729A', 'JP2010008714A', 'CN101303880B', 'US20100293072A1', 'JP2011043710A', 'WO2011048010A1', 'CN102262890A', 'EP2541438B1', 'US20130177296A1', 'US8488943B1', 'CN102830977B', 'CN103400592A']","['CN103400592A', 'CN104079890A', 'CN105679349A', 'CN104505108B', 'CN104572882B', 'CN104657074A', 'CN104751846B', 'CN107026931A', 'CN105895132B', 'CN106131324A', 'CN106571137A', 'CN106559572B', 'CN106603840A', 'CN108093124B', 'CN108053831A', 'CN108737884B', 'CN109195044B', 'CN109815360B', 'CN111833917A', 'CN112311658A', 'CN113539313A', 'CN114999464A', 'US6934461B1', 'US7610597B1', 'US7319764B1', 'EP1636733B1', 'JP4244331B2', 'US8295682B1', 'US20080027726A1', 'CN101246729A', 'JP2010008714A', 'CN101303880B', 'US20100293072A1', 'JP2011043710A', 'WO2011048010A1', 'CN102262890A', 'EP2541438B1', 'US20130177296A1', 'US8488943B1', 'CN102830977B', 'CN103400592A']","['CN103400592A', 'CN104079890A', 'CN105679349A', 'CN104505108B', 'CN104572882B', 'CN104657074A', 'CN104751846B', 'CN107026931A', 'CN105895132B', 'CN106131324A', 'CN106571137A', 'CN106559572B', 'CN106603840A', 'CN108093124B', 'CN108053831A', 'CN108737884B', 'CN109195044B', 'CN109815360B', 'CN111833917A', 'CN112311658A', 'CN113539313A', 'CN114999464A']","['CN101246729A', 'CN101303880B', 'CN102262890A', 'CN102830977B', 'CN103400592A']","['CN103400592A', 'CN104079890A', 'CN105679349A', 'CN104505108B', 'CN104572882B', 'CN104657074A', 'CN104751846B', 'CN107026931A', 'CN105895132B', 'CN106131324A', 'CN106571137A', 'CN106559572B', 'CN106603840A', 'CN108093124B', 'CN108053831A', 'CN108737884B', 'CN109195044B', 'CN109815360B', 'CN111833917A', 'CN112311658A', 'CN113539313A', 'CN114999464A', 'CN101246729A', 'CN101303880B', 'CN102262890A', 'CN102830977B', 'CN103400592A']"
+IN2015DN01367A,Patent IN2015DN01367A ,IN,2015-07-03,A device (10) for controlling an operation the device comprising: a controller (12); a storage means (14) for storing electronic program instructions for controlling the controller; and an input means (16); wherein the controller is operable under control of the electronic program instructions to: receive at least one instruction via the input means the at least one instruction comprising a command associated with the operation; and implement the operation according to the command.,G06F3/016,Input arrangements with force or tactile feedback as computer generated output to the user,,,Mark Andrew Lapins,"['ITPD20130145A1', 'US9167666B1', 'JP6418485B2', 'USD761288S1', 'DE102016111803A1', 'TWM542228U', 'CN107678606B', 'US11003498B1']","['JP2604560Y2', 'JPH09331588A', 'US6140987A', 'US6752946B2', 'US6127941A', 'ES2307609T3', 'EP1393533B1', 'GB0111722D0', 'US6989763B2', 'US6933686B1', 'US7334067B2', 'US7400239B2', 'DE102005032028A1', 'US20080144262A1', 'CA2633200C', 'JP4991773B2', 'CN201549633U', 'US7714790B1', 'WO2011065293A1', 'JP2011124665A', 'US10042480B2']","['ITPD20130145A1', 'US9167666B1', 'JP6418485B2', 'USD761288S1', 'DE102016111803A1', 'TWM542228U', 'CN107678606B', 'US11003498B1', 'JP2604560Y2', 'JPH09331588A', 'US6140987A', 'US6752946B2', 'US6127941A', 'ES2307609T3', 'EP1393533B1', 'GB0111722D0', 'US6989763B2', 'US6933686B1', 'US7334067B2', 'US7400239B2', 'DE102005032028A1', 'US20080144262A1', 'CA2633200C', 'JP4991773B2', 'CN201549633U', 'US7714790B1', 'WO2011065293A1', 'JP2011124665A', 'US10042480B2']",['CN107678606B'],['CN201549633U'],"['CN107678606B', 'CN201549633U']"
+IN2014CN01835A,Patent IN2014CN01835A ,IN,2015-09-04,An instruction identifies a register and a memory location. Upon execution of the instruction by a processor an item is loaded from the memory location and a shift and insert operation is performed to shift data in the register and to insert the item into the register.,G06F9/3004,Arrangements for executing specific machine instructions to perform operations on memory,,,Mao Zeng,"['US9329834B2', 'JP2016019708A', 'CN104597805A', 'CN105892993B', 'US10725685B2', 'US10579377B2', 'US10452288B2', 'US10732858B2', 'US10733016B1', 'US11010099B1', 'US11237827B2']","['NL136896C', 'EP0192232B1', 'US5781457A', 'JPH07295882A', 'JPH0927030A', 'US5991531A', 'US6334176B1', 'US6490673B1', 'FI20010924A', 'US7685212B2', 'US7272622B2', 'US6721866B2', 'US20110087859A1', 'US7376812B1', 'US7126991B1', 'US7275147B2', 'GB2409059B', 'GB2411978B', 'US7475392B2', 'JP2006004042A', 'US7315937B2', 'US20070052557A1', 'US8984256B2', 'US8977836B2', 'US7949701B2', 'US7624251B2', 'JP2008258762A', 'US8078834B2', 'US8108653B2', 'US8145804B2', 'US9137737B2', 'KR101488650B1']","['US9329834B2', 'JP2016019708A', 'CN104597805A', 'CN105892993B', 'US10725685B2', 'US10579377B2', 'US10452288B2', 'US10732858B2', 'US10733016B1', 'US11010099B1', 'US11237827B2', 'NL136896C', 'EP0192232B1', 'US5781457A', 'JPH07295882A', 'JPH0927030A', 'US5991531A', 'US6334176B1', 'US6490673B1', 'FI20010924A', 'US7685212B2', 'US7272622B2', 'US6721866B2', 'US20110087859A1', 'US7376812B1', 'US7126991B1', 'US7275147B2', 'GB2409059B', 'GB2411978B', 'US7475392B2', 'JP2006004042A', 'US7315937B2', 'US20070052557A1', 'US8984256B2', 'US8977836B2', 'US7949701B2', 'US7624251B2', 'JP2008258762A', 'US8078834B2', 'US8108653B2', 'US8145804B2', 'US9137737B2', 'KR101488650B1']","['CN104597805A', 'CN105892993B']",[],"['CN104597805A', 'CN105892993B']"
+IN2014DN06498A,Patent IN2014DN06498A ,IN,2015-06-12,A wireless communication terminal provided with multiple types of communication interface is made to select a more desirable communication interface. The wireless communication terminal includes: a plurality of communication interfaces each of which corresponds to at least one of a plurality of wireless access systems; means for receiving an instruction from a prescribed control apparatus the instruction including a wireless access system determined by the control apparatus based on a status of the wireless communication terminal which changes along with movement of the wireless communication terminal; and means for communicating by using a communication interface corresponding to the instructed wireless access system.,H04W12/062,Pre-authentication,,,Ippei Akiyoshi,"['WO2013069190A1', 'US9107049B2', 'EP3014921B1', 'US20150319685A1', 'EP3220614B1', 'JPWO2016079991A1', 'JP6455757B2', 'EP3236700B1', 'RU2598337C2', 'US10194383B2', 'JP6127100B2', 'JP6620587B2', 'EP3280184A1', 'JP6833391B2', 'KR102621810B1', 'US10306548B2', 'US10506616B2', 'US11109290B2', 'US11160003B2', 'US11049347B2', 'CN109116720A', 'CN109151034A', 'CN114205877A', 'CN115633399B']","['US7184765B1', 'EP1526752B1', 'US7366524B2', 'JP2004349976A', 'JP4496733B2', 'JP4703657B2', 'US8155693B2', 'EP1841142A1', 'EP1912459A1', 'WO2008096702A1', 'JP2008258666A', 'US8160638B2', 'JP5146098B2', 'KR20100031467A', 'US8391141B2', 'WO2011134518A1', 'JP5796201B2', 'JP5304947B2']","['WO2013069190A1', 'US9107049B2', 'EP3014921B1', 'US20150319685A1', 'EP3220614B1', 'JPWO2016079991A1', 'JP6455757B2', 'EP3236700B1', 'RU2598337C2', 'US10194383B2', 'JP6127100B2', 'JP6620587B2', 'EP3280184A1', 'JP6833391B2', 'KR102621810B1', 'US10306548B2', 'US10506616B2', 'US11109290B2', 'US11160003B2', 'US11049347B2', 'CN109116720A', 'CN109151034A', 'CN114205877A', 'CN115633399B', 'US7184765B1', 'EP1526752B1', 'US7366524B2', 'JP2004349976A', 'JP4496733B2', 'JP4703657B2', 'US8155693B2', 'EP1841142A1', 'EP1912459A1', 'WO2008096702A1', 'JP2008258666A', 'US8160638B2', 'JP5146098B2', 'KR20100031467A', 'US8391141B2', 'WO2011134518A1', 'JP5796201B2', 'JP5304947B2']","['RU2598337C2', 'CN109116720A', 'CN109151034A', 'CN114205877A', 'CN115633399B']",[],"['RU2598337C2', 'CN109116720A', 'CN109151034A', 'CN114205877A', 'CN115633399B']"
+IN2014DN10422A,Patent IN2014DN10422A ,IN,2015-08-21,Computer based systems methods media and educational system assembling platforms comprising an educational environment which further comprises: at least one area of skill interest or expertise; a population of learning activities associated with each area of skill interest or expertise; and a guided learning mode comprising: a software module configured to display and provide access to one or more subpopulations of learning activities to be completed by a learner; a software module configured to suggest or recommend one or more particular learning activities to a learner based on analysis of learner data; and a software module configured to allow a mentor to view and tune learner data on which suggestions or recommendations are based.,G09B7/00,Electrically-operated teaching apparatus or devices working with questions and answers,,,Doug Dohring,"['US9324240B2', 'WO2014104620A1', 'CN103399696B', 'US9652675B2', 'US9674244B2', 'RU2667440C1', 'KR20160095543A', 'CN105469335A', 'CN105654812A', 'US10286280B2', 'US10490092B2', 'KR102194227B1', 'CN108346329A', 'US12052320B2', 'CN108768614B', 'CN110910188A', 'WO2020056444A1', 'CN109285402A', 'KR102288106B1', 'CN111754118B', 'US11328732B2', 'CN113012503A', 'BR102021005422A2']","['GB2283668A', 'IT240601Y1', 'US5727950A', 'GB2333085B', 'JP2001194985A', 'US20050287510A1', 'US7974569B2', 'US20070202484A1', 'KR100835234B1', 'US20080254430A1', 'US20090035733A1', 'JP5049771B2', 'JP4934102B2', 'JP2010160556A', 'US20110010306A1', 'CN201927209U', 'CN102364916A']","['US9324240B2', 'WO2014104620A1', 'CN103399696B', 'US9652675B2', 'US9674244B2', 'RU2667440C1', 'KR20160095543A', 'CN105469335A', 'CN105654812A', 'US10286280B2', 'US10490092B2', 'KR102194227B1', 'CN108346329A', 'US12052320B2', 'CN108768614B', 'CN110910188A', 'WO2020056444A1', 'CN109285402A', 'KR102288106B1', 'CN111754118B', 'US11328732B2', 'CN113012503A', 'BR102021005422A2', 'GB2283668A', 'IT240601Y1', 'US5727950A', 'GB2333085B', 'JP2001194985A', 'US20050287510A1', 'US7974569B2', 'US20070202484A1', 'KR100835234B1', 'US20080254430A1', 'US20090035733A1', 'JP5049771B2', 'JP4934102B2', 'JP2010160556A', 'US20110010306A1', 'CN201927209U', 'CN102364916A']","['CN103399696B', 'RU2667440C1', 'CN105469335A', 'CN105654812A', 'CN108346329A', 'CN108768614B', 'CN110910188A', 'CN109285402A', 'CN111754118B', 'CN113012503A', 'BR102021005422A2']","['CN201927209U', 'CN102364916A']","['CN103399696B', 'RU2667440C1', 'CN105469335A', 'CN105654812A', 'CN108346329A', 'CN108768614B', 'CN110910188A', 'CN109285402A', 'CN111754118B', 'CN113012503A', 'BR102021005422A2', 'CN201927209U', 'CN102364916A']"
+IN2012DE00713A,Patent IN2012DE00713A ,IN,2015-08-21,"A battery management chip may include a battery management unit and a vertical bus circuit. The battery management unit can monitor a cell status of multiple cells in a battery module coupled to the battery management chip in response to an instruction from a host processor. The vertical bus circuit may transfer the instruction from the host processor to the battery management unit. The vertical bus circuit may include a first receiver, a command processor and a first transmitter. The first receiver can receive a first pair of differential input data signals. The command processor can process the first pair of differential input data signals. The first transmitter can output a first pair of differential output data signals.",H01M10/425,"Structural combination with electronic components, e.g. electronic circuits integrated to the outside of the casing",,,Flippin Allan,"['US9897662B2', 'JP6262475B2', 'KR101680189B1', 'CN103728568B', 'DE102014202626A1', 'US9430438B2', 'CN104460923A', 'CN105720617A', 'CN104953558B', 'KR101733410B1', 'JP6408068B2', 'CN109428399B', 'CN207801530U', 'JP6649447B2', 'CN109494418B', 'CN109683098B', 'TWI721534B', 'EP3780528A1', 'EP3780526A1', 'WO2021226847A1', 'CN113542925B', 'KR102449819B1']","['US6181103B1', 'CN1145892C', 'JP2005513614A', 'US6871244B1', 'US7447872B2', 'TW567459B', 'CN100363915C', 'US7973515B2', 'CN101119036B', 'JP2009247195A', 'TW201006091A', 'US8227944B2', 'US8022669B2', 'US8612733B2']","['US9897662B2', 'JP6262475B2', 'KR101680189B1', 'CN103728568B', 'DE102014202626A1', 'US9430438B2', 'CN104460923A', 'CN105720617A', 'CN104953558B', 'KR101733410B1', 'JP6408068B2', 'CN109428399B', 'CN207801530U', 'JP6649447B2', 'CN109494418B', 'CN109683098B', 'TWI721534B', 'EP3780528A1', 'EP3780526A1', 'WO2021226847A1', 'CN113542925B', 'KR102449819B1', 'US6181103B1', 'CN1145892C', 'JP2005513614A', 'US6871244B1', 'US7447872B2', 'TW567459B', 'CN100363915C', 'US7973515B2', 'CN101119036B', 'JP2009247195A', 'TW201006091A', 'US8227944B2', 'US8022669B2', 'US8612733B2']","['CN103728568B', 'CN104460923A', 'CN105720617A', 'CN104953558B', 'CN109428399B', 'CN207801530U', 'CN109494418B', 'CN109683098B', 'CN113542925B']","['CN1145892C', 'CN100363915C', 'CN101119036B']","['CN103728568B', 'CN104460923A', 'CN105720617A', 'CN104953558B', 'CN109428399B', 'CN207801530U', 'CN109494418B', 'CN109683098B', 'CN113542925B', 'CN1145892C', 'CN100363915C', 'CN101119036B']"
+IN2014CN04930A,Patent IN2014CN04930A ,IN,2015-09-18,A method for upgrading software comprises: a client reports a software upgrade request to a server wherein the upgrade request carries file information of the local software to be upgraded (101); the server determines the difference with the latest version software according to the file information of the software to be upgraded in the upgrade request and generates upgrade instruction information according to the software difference and sends it to the client (102); the client downloads and upgrades the relevant file and performs the relevant local upgrade operation according to the instruction in the received upgrade instruction information (103). A system for upgrading software is disclosed as well. Application of the present solution can save bandwidth resources and reduce the workload for upgrading software.,G06F8/65,Updates,,,Yehui Lin,"['WO2009132261A1', 'US9141635B2', 'US20160034268A1', 'CN104239081A', 'KR101782457B1', 'US9383989B1', 'CN104539696B', 'CN104539695B', 'US9798740B2', 'CN105808284B', 'US9785429B2', 'CN104866351B', 'CN105095074B', 'CN106936622B', 'CN105867934B', 'CN107346252B', 'CN106502883B', 'CN107016280A', 'CN107729041B', 'CN109388423A', 'EP3662363A4', 'US11055087B2', 'CN110633096B', 'CN108923968B', 'CN108769260B', 'CN109104469A', 'CN109117163B', 'CN110908681B', 'CN109445833B', 'CN109117166B', 'CN109710293B', 'CN111381858B', 'CN109814908A', 'CN109976784A', 'CN111610990B', 'CN109639842B', 'CN111666079B', 'CN110086885A', 'CN110231954B', 'CN110442361B', 'CN110532006B', 'CN110493345A', 'CN111427595B', 'CN110764803B', 'CN112698850B', 'CN110851156A', 'CN110837393A', 'CN111008027A', 'CN111143292B', 'CN110990042A', 'CN111158719B', 'CN111258623A', 'CN111258612B', 'CN111443927A', 'CN111414185B', 'CN113326059B', 'US11354108B2', 'CN111427596B', 'CN111427598A', 'CN113495737B', 'CN111478897A', 'CN111538523A', 'CN111651176B', 'CN111736863A', 'CN111666091B', 'CN111884834A', 'CN111898118B', 'CN112099825B', 'CN112104501A', 'CN112202920B', 'CN112306541B', 'CN112328294B', 'CN112527346A', 'CN112486515B', 'CN112596759A', 'CN112558994A', 'CN112612493A', 'CN112783530B', 'CN114915618B', 'CN112860289A', 'CN112835608A', 'CN113190258A', 'CN113238782B', 'CN113452622A', 'CN115794185B', 'CN113904932A', 'CN114090055A', 'CN114780124A', 'CN114785685B', 'CN115202708A', 'CN115712544B', 'CN116028078B', 'CN115934141A', 'CN116319751A', 'CN117032755A', 'CN116755698B']","['US20030145310A1', 'US7461373B2', 'US7539686B2', 'US7958502B2', 'DE602005025385D1', 'CN101026464A', 'US7861224B2', 'US8166449B2', 'KR20090090801A', 'US8341132B2', 'CN101442688A', 'CN101699399B', 'US9122558B2', 'CN102081536A', 'US8473504B2', 'KR20140077435A', 'US8924950B2']","['WO2009132261A1', 'US9141635B2', 'US20160034268A1', 'CN104239081A', 'KR101782457B1', 'US9383989B1', 'CN104539696B', 'CN104539695B', 'US9798740B2', 'CN105808284B', 'US9785429B2', 'CN104866351B', 'CN105095074B', 'CN106936622B', 'CN105867934B', 'CN107346252B', 'CN106502883B', 'CN107016280A', 'CN107729041B', 'CN109388423A', 'EP3662363A4', 'US11055087B2', 'CN110633096B', 'CN108923968B', 'CN108769260B', 'CN109104469A', 'CN109117163B', 'CN110908681B', 'CN109445833B', 'CN109117166B', 'CN109710293B', 'CN111381858B', 'CN109814908A', 'CN109976784A', 'CN111610990B', 'CN109639842B', 'CN111666079B', 'CN110086885A', 'CN110231954B', 'CN110442361B', 'CN110532006B', 'CN110493345A', 'CN111427595B', 'CN110764803B', 'CN112698850B', 'CN110851156A', 'CN110837393A', 'CN111008027A', 'CN111143292B', 'CN110990042A', 'CN111158719B', 'CN111258623A', 'CN111258612B', 'CN111443927A', 'CN111414185B', 'CN113326059B', 'US11354108B2', 'CN111427596B', 'CN111427598A', 'CN113495737B', 'CN111478897A', 'CN111538523A', 'CN111651176B', 'CN111736863A', 'CN111666091B', 'CN111884834A', 'CN111898118B', 'CN112099825B', 'CN112104501A', 'CN112202920B', 'CN112306541B', 'CN112328294B', 'CN112527346A', 'CN112486515B', 'CN112596759A', 'CN112558994A', 'CN112612493A', 'CN112783530B', 'CN114915618B', 'CN112860289A', 'CN112835608A', 'CN113190258A', 'CN113238782B', 'CN113452622A', 'CN115794185B', 'CN113904932A', 'CN114090055A', 'CN114780124A', 'CN114785685B', 'CN115202708A', 'CN115712544B', 'CN116028078B', 'CN115934141A', 'CN116319751A', 'CN117032755A', 'CN116755698B', 'US20030145310A1', 'US7461373B2', 'US7539686B2', 'US7958502B2', 'DE602005025385D1', 'CN101026464A', 'US7861224B2', 'US8166449B2', 'KR20090090801A', 'US8341132B2', 'CN101442688A', 'CN101699399B', 'US9122558B2', 'CN102081536A', 'US8473504B2', 'KR20140077435A', 'US8924950B2']","['CN104239081A', 'CN104539696B', 'CN104539695B', 'CN105808284B', 'CN104866351B', 'CN105095074B', 'CN106936622B', 'CN105867934B', 'CN107346252B', 'CN106502883B', 'CN107016280A', 'CN107729041B', 'CN109388423A', 'CN110633096B', 'CN108923968B', 'CN108769260B', 'CN109104469A', 'CN109117163B', 'CN110908681B', 'CN109445833B', 'CN109117166B', 'CN109710293B', 'CN111381858B', 'CN109814908A', 'CN109976784A', 'CN111610990B', 'CN109639842B', 'CN111666079B', 'CN110086885A', 'CN110231954B', 'CN110442361B', 'CN110532006B', 'CN110493345A', 'CN111427595B', 'CN110764803B', 'CN112698850B', 'CN110851156A', 'CN110837393A', 'CN111008027A', 'CN111143292B', 'CN110990042A', 'CN111158719B', 'CN111258623A', 'CN111258612B', 'CN111443927A', 'CN111414185B', 'CN113326059B', 'CN111427596B', 'CN111427598A', 'CN113495737B', 'CN111478897A', 'CN111538523A', 'CN111651176B', 'CN111736863A', 'CN111666091B', 'CN111884834A', 'CN111898118B', 'CN112099825B', 'CN112104501A', 'CN112202920B', 'CN112306541B', 'CN112328294B', 'CN112527346A', 'CN112486515B', 'CN112596759A', 'CN112558994A', 'CN112612493A', 'CN112783530B', 'CN114915618B', 'CN112860289A', 'CN112835608A', 'CN113190258A', 'CN113238782B', 'CN113452622A', 'CN115794185B', 'CN113904932A', 'CN114090055A', 'CN114780124A', 'CN114785685B', 'CN115202708A', 'CN115712544B', 'CN116028078B', 'CN115934141A', 'CN116319751A', 'CN117032755A', 'CN116755698B']","['CN101026464A', 'CN101442688A', 'CN101699399B', 'CN102081536A']","['CN104239081A', 'CN104539696B', 'CN104539695B', 'CN105808284B', 'CN104866351B', 'CN105095074B', 'CN106936622B', 'CN105867934B', 'CN107346252B', 'CN106502883B', 'CN107016280A', 'CN107729041B', 'CN109388423A', 'CN110633096B', 'CN108923968B', 'CN108769260B', 'CN109104469A', 'CN109117163B', 'CN110908681B', 'CN109445833B', 'CN109117166B', 'CN109710293B', 'CN111381858B', 'CN109814908A', 'CN109976784A', 'CN111610990B', 'CN109639842B', 'CN111666079B', 'CN110086885A', 'CN110231954B', 'CN110442361B', 'CN110532006B', 'CN110493345A', 'CN111427595B', 'CN110764803B', 'CN112698850B', 'CN110851156A', 'CN110837393A', 'CN111008027A', 'CN111143292B', 'CN110990042A', 'CN111158719B', 'CN111258623A', 'CN111258612B', 'CN111443927A', 'CN111414185B', 'CN113326059B', 'CN111427596B', 'CN111427598A', 'CN113495737B', 'CN111478897A', 'CN111538523A', 'CN111651176B', 'CN111736863A', 'CN111666091B', 'CN111884834A', 'CN111898118B', 'CN112099825B', 'CN112104501A', 'CN112202920B', 'CN112306541B', 'CN112328294B', 'CN112527346A', 'CN112486515B', 'CN112596759A', 'CN112558994A', 'CN112612493A', 'CN112783530B', 'CN114915618B', 'CN112860289A', 'CN112835608A', 'CN113190258A', 'CN113238782B', 'CN113452622A', 'CN115794185B', 'CN113904932A', 'CN114090055A', 'CN114780124A', 'CN114785685B', 'CN115202708A', 'CN115712544B', 'CN116028078B', 'CN115934141A', 'CN116319751A', 'CN117032755A', 'CN116755698B', 'CN101026464A', 'CN101442688A', 'CN101699399B', 'CN102081536A']"
+IN2014DN08056A,Patent IN2014DN08056A ,IN,2015-05-01,An information handling system (IHS) includes a memory controller a memory device and firmware. A failing memory region and a spare memory region are included on the memory device. A memory buffer in the memory device is coupled to the failing memory region and the spare memory region. The memory buffer is operable to perform copy operations without instruction from the memory controller in order to copy data from the failing memory region to the spare memory region in response to firmware operations performed by the firmware. Firmware operations may include instructing the memory controller to produce additional refresh or calibration operation time periods or providing an instruction to perform a data transfer operation to the spare memory region. The memory buffer is also operable to route requests from the memory controller to one of the failing memory region and the spare memory region during the copy operations.,G06F11/1666,Error detection or correction of the data by redundancy in hardware where the redundant component is memory or memory area,,,Stuart Allen Berke,"['US9712373B1', 'US9280497B2', 'JP6090057B2', 'CN104423890A', 'GB201315397D0', 'US10468118B2', 'US9804920B2', 'US9984741B2', 'KR102405054B1', 'US9910728B2', 'KR20170082066A', 'US10346321B2', 'US20190066760A1', 'CN107483890B', 'US10546628B2', 'US10606713B2', 'US10777297B2', 'US11537468B1', 'CN116580748B']","['US5805920A', 'US5832005A', 'JP2002259062A', 'US7400670B2', 'US8060774B2', 'US7379361B2', 'US7996710B2', 'US7694093B2', 'US20090132876A1', 'US7900084B2', 'US20100162037A1', 'US8407516B2', 'US8443263B2', 'JP4877396B2', 'US20120239887A1']","['US9712373B1', 'US9280497B2', 'JP6090057B2', 'CN104423890A', 'GB201315397D0', 'US10468118B2', 'US9804920B2', 'US9984741B2', 'KR102405054B1', 'US9910728B2', 'KR20170082066A', 'US10346321B2', 'US20190066760A1', 'CN107483890B', 'US10546628B2', 'US10606713B2', 'US10777297B2', 'US11537468B1', 'CN116580748B', 'US5805920A', 'US5832005A', 'JP2002259062A', 'US7400670B2', 'US8060774B2', 'US7379361B2', 'US7996710B2', 'US7694093B2', 'US20090132876A1', 'US7900084B2', 'US20100162037A1', 'US8407516B2', 'US8443263B2', 'JP4877396B2', 'US20120239887A1']","['CN104423890A', 'CN107483890B', 'CN116580748B']",[],"['CN104423890A', 'CN107483890B', 'CN116580748B']"
+IN2012DE00674A,Patent IN2012DE00674A ,IN,2015-08-21,The present invention encompasses a novel one-step process for generation of nanocrystalline solid dispersions. Use of crystallization-inducing excipients for altering the crystallization propensity of pharmaceutical actives during pharmaceutical process ( e.g. spray drying) is the inventive step of the present invention. The process parameters of the pharmaceutical process have to be optimized in such a way that crystallization of the components of the dispersion is induced. The present invention is particularly of use for improving the dissolution of pharmaceutical actives exhibiting dissolution-limited bioavailability. Dissolution enhancement is because of the decreased crystallite size of the pharmaceutical active.,A61K31/415,"1,2-Diazoles",,,Kumar Bansal Arvind,"['JP2017533970A', 'HUP1500618A2', 'CN106176638B', 'RU2766086C2', 'EP3528792A1', 'WO2019022784A1', 'KR20210065977A', 'US20220096503A1', 'CN109771379A', 'TR201910337A2', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']","['US4721709A', 'KR0182801B1', 'EP0862420A4', 'AU6014098A', 'US20030203036A1', 'US6706283B1', 'US6395300B1', 'US8771740B2', 'US6780324B2', 'CA2580529A1', 'CA2598204C', 'EP1690528A1', 'WO2008048205A2', 'NZ566313A', 'US7914776B2', 'WO2009038112A1', 'DK2200588T3', 'JP2011513301A', 'EP2253306A1', 'CA2792273A1']","['JP2017533970A', 'HUP1500618A2', 'CN106176638B', 'RU2766086C2', 'EP3528792A1', 'WO2019022784A1', 'KR20210065977A', 'US20220096503A1', 'CN109771379A', 'TR201910337A2', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B', 'US4721709A', 'KR0182801B1', 'EP0862420A4', 'AU6014098A', 'US20030203036A1', 'US6706283B1', 'US6395300B1', 'US8771740B2', 'US6780324B2', 'CA2580529A1', 'CA2598204C', 'EP1690528A1', 'WO2008048205A2', 'NZ566313A', 'US7914776B2', 'WO2009038112A1', 'DK2200588T3', 'JP2011513301A', 'EP2253306A1', 'CA2792273A1']","['CN106176638B', 'RU2766086C2', 'CN109771379A', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']",[],"['CN106176638B', 'RU2766086C2', 'CN109771379A', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']"
+IN2014MN01101A,Patent IN2014MN01101A ,IN,2015-07-03,,G01N33/5008,"Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving human or animal cells for testing or evaluating the effect of chemical or biological compounds, e.g. drugs, cosmetics",,,Pavel Osten,"['CA2565870A1', 'SG11201600604QA', 'WO2016145366A1', 'CN104850864A', 'EP3510500A4', 'WO2018094290A1', 'US10303961B1', 'CN106990077A', 'EP3451190B1', 'CN108766587B', 'JP6559850B1', 'US11486950B2', 'JP6558786B1', 'EP3644228B1', 'US20220113288A1', 'KR102307479B1', 'CN109709129A', 'US11808760B1', 'CN110178757B', 'WO2021030270A1', 'IL292185A', 'CN110850070B', 'CN111061729B', 'US20210190762A1', 'CN111062346A', 'US11461216B1', 'US11605038B1', 'CN111657861B', 'WO2023044336A1', 'WO2024168475A1']","['US7998704B2', 'US8952213B2', 'US7372985B2', 'CN101484806A']","['CA2565870A1', 'SG11201600604QA', 'WO2016145366A1', 'CN104850864A', 'EP3510500A4', 'WO2018094290A1', 'US10303961B1', 'CN106990077A', 'EP3451190B1', 'CN108766587B', 'JP6559850B1', 'US11486950B2', 'JP6558786B1', 'EP3644228B1', 'US20220113288A1', 'KR102307479B1', 'CN109709129A', 'US11808760B1', 'CN110178757B', 'WO2021030270A1', 'IL292185A', 'CN110850070B', 'CN111061729B', 'US20210190762A1', 'CN111062346A', 'US11461216B1', 'US11605038B1', 'CN111657861B', 'WO2023044336A1', 'WO2024168475A1', 'US7998704B2', 'US8952213B2', 'US7372985B2', 'CN101484806A']","['CN104850864A', 'CN106990077A', 'CN108766587B', 'CN109709129A', 'CN110178757B', 'CN110850070B', 'CN111061729B', 'CN111062346A', 'CN111657861B']",['CN101484806A'],"['CN104850864A', 'CN106990077A', 'CN108766587B', 'CN109709129A', 'CN110178757B', 'CN110850070B', 'CN111061729B', 'CN111062346A', 'CN111657861B', 'CN101484806A']"
+IN2014DN03114A,Patent IN2014DN03114A ,IN,2015-05-15,An electronic marketplace for service images permits users to browse descriptions of service images implementing desired functionalities of a virtual machine image. The described service images may contain one or more software applications and may be further offered for purchase through an electronic service image marketplace. The electronic marketplace can further provide uniform control objects that are associated with multiple service images and multiple instruction sets. Following an interaction with a particular uniform control object the electronic marketplace can perform an action on a particular service image based on an association between the particular uniform control object and a particular instruction set associated with the particular service image.,G06Q30/06,"Buying, selling or leasing transactions",,,Andrew S Tyra,"['US8776043B1', 'US9530156B2', 'US9626700B1', 'US10147123B2', 'US9679279B1', 'US9397987B1', 'US9258371B1', 'JP6060708B2', 'US9553787B1', 'US9785320B2', 'US10938665B2', 'US10430211B2', 'CN110275742A', 'US12073457B1']","['JPS6276954A', 'US7370008B1', 'US5528490A', 'US6625581B1', 'US5598470A', 'US6307574B1', 'US5870717A', 'US20030040962A1', 'US6718534B1', 'US6275227B1', 'JP3444227B2', 'US7165041B1', 'GB2368665A', 'US7424445B1', 'US6795707B2', 'US6883168B1', 'ES2249450T3', 'US7315830B1', 'FR2813967A1', 'US7640204B2', 'US6918091B2', 'US20020120529A1', 'US20020107718A1', 'US20020120461A1', 'US6910071B2', 'EP1267572A2', 'US7797271B1', 'JP2003044602A', 'US7089259B1', 'US20030078850A1', 'US7389294B2', 'US7472077B2', 'US7292990B2', 'US7324969B2', 'US7233928B2', 'US20030217357A1', 'US20040143516A1', 'US8041642B2', 'US7047448B2', 'US7096464B1', 'US7526452B2', 'US7467206B2', 'US7466835B2', 'US7987449B1', 'US20050010916A1', 'US20040243583A1', 'US7328173B2', 'US7515717B2', 'US8180681B2', 'US8555273B1', 'WO2005031570A1', 'US7747644B1', 'WO2005045671A1', 'US7257583B2', 'US7797198B1', 'US7801771B1', 'US7433835B2', 'US8024225B1', 'CA2564334C', 'US20070067297A1', 'US7665064B2', 'US20050289050A1', 'US9329905B2', 'US8019725B1', 'US20060200814A1', 'US8074214B2', 'US8543931B2', 'WO2007009225A1', 'US7548969B2', 'US8065204B2', 'US7778874B1', 'US20070118530A1', 'US7624113B2', 'US9002342B2', 'US7631323B1', 'US8396761B2', 'US7912762B2', 'US7908358B1', 'DE602006014360D1', 'DE602006004856D1', 'US7865584B2', 'US7962937B2', 'WO2008017001A2', 'EP1895374B1', 'US20080080396A1', 'US8370915B2', 'US20080168167A1', 'CA2676959C', 'US20080196000A1', 'US8214483B2', 'US20080301669A1', 'US20080301672A1', 'US20080301667A1', 'KR101448994B1', 'US20090037492A1', 'US20090037337A1', 'US8839221B2', 'US20110173028A1', 'US20090100331A1', 'US8434077B2', 'US8392902B2', 'US20090112735A1', 'US10013536B2', 'US20090171811A1', 'JP5288334B2', 'US8713556B2', 'JP2009217656A', 'US8605863B1', 'US20090249329A1', 'US8631397B2', 'US8572607B2', 'US9092243B2', 'US8543998B2', 'US8862633B2', 'US8185884B2', 'US20100180272A1', 'US8019660B2', 'US8335724B2', 'US9842004B2', 'US8321949B1', 'WO2010028071A1', 'US9280335B2', 'EP2175614B1', 'US8041987B2', 'US8914783B2', 'US10025627B2', 'US8291414B2', 'US8463884B2', 'US20100262508A1', 'JP5156682B2', 'JP5103441B2', 'US20100306767A1', 'JP5097750B2', 'US8352941B1', 'US9448852B2', 'US20110119191A1', 'US8392497B2', 'JP4939594B2', 'US20110137805A1', 'US8789041B2', 'US8316120B2', 'CN102169484B', 'US20110214124A1', 'US20110213687A1', 'US10339575B2', 'US8627426B2', 'US8813065B2', 'US20110289499A1', 'US8606897B2', 'US8954564B2', 'US20120054731A1', 'US8380837B2', 'JP4743726B1', 'US9288117B1', 'US8959221B2', 'US9383800B2', 'US8898630B2', 'US20120265561A1', 'US8601583B1', 'WO2012146985A2', 'US9489666B2', 'US8732401B2', 'US8954586B2', 'US8707289B2', 'US9626700B1', 'US9530156B2', 'US8776043B1', 'US10147123B2', 'US8694786B2']","['US8776043B1', 'US9530156B2', 'US9626700B1', 'US10147123B2', 'US9679279B1', 'US9397987B1', 'US9258371B1', 'JP6060708B2', 'US9553787B1', 'US9785320B2', 'US10938665B2', 'US10430211B2', 'CN110275742A', 'US12073457B1', 'JPS6276954A', 'US7370008B1', 'US5528490A', 'US6625581B1', 'US5598470A', 'US6307574B1', 'US5870717A', 'US20030040962A1', 'US6718534B1', 'US6275227B1', 'JP3444227B2', 'US7165041B1', 'GB2368665A', 'US7424445B1', 'US6795707B2', 'US6883168B1', 'ES2249450T3', 'US7315830B1', 'FR2813967A1', 'US7640204B2', 'US6918091B2', 'US20020120529A1', 'US20020107718A1', 'US20020120461A1', 'US6910071B2', 'EP1267572A2', 'US7797271B1', 'JP2003044602A', 'US7089259B1', 'US20030078850A1', 'US7389294B2', 'US7472077B2', 'US7292990B2', 'US7324969B2', 'US7233928B2', 'US20030217357A1', 'US20040143516A1', 'US8041642B2', 'US7047448B2', 'US7096464B1', 'US7526452B2', 'US7467206B2', 'US7466835B2', 'US7987449B1', 'US20050010916A1', 'US20040243583A1', 'US7328173B2', 'US7515717B2', 'US8180681B2', 'US8555273B1', 'WO2005031570A1', 'US7747644B1', 'WO2005045671A1', 'US7257583B2', 'US7797198B1', 'US7801771B1', 'US7433835B2', 'US8024225B1', 'CA2564334C', 'US20070067297A1', 'US7665064B2', 'US20050289050A1', 'US9329905B2', 'US8019725B1', 'US20060200814A1', 'US8074214B2', 'US8543931B2', 'WO2007009225A1', 'US7548969B2', 'US8065204B2', 'US7778874B1', 'US20070118530A1', 'US7624113B2', 'US9002342B2', 'US7631323B1', 'US8396761B2', 'US7912762B2', 'US7908358B1', 'DE602006014360D1', 'DE602006004856D1', 'US7865584B2', 'US7962937B2', 'WO2008017001A2', 'EP1895374B1', 'US20080080396A1', 'US8370915B2', 'US20080168167A1', 'CA2676959C', 'US20080196000A1', 'US8214483B2', 'US20080301669A1', 'US20080301672A1', 'US20080301667A1', 'KR101448994B1', 'US20090037492A1', 'US20090037337A1', 'US8839221B2', 'US20110173028A1', 'US20090100331A1', 'US8434077B2', 'US8392902B2', 'US20090112735A1', 'US10013536B2', 'US20090171811A1', 'JP5288334B2', 'US8713556B2', 'JP2009217656A', 'US8605863B1', 'US20090249329A1', 'US8631397B2', 'US8572607B2', 'US9092243B2', 'US8543998B2', 'US8862633B2', 'US8185884B2', 'US20100180272A1', 'US8019660B2', 'US8335724B2', 'US9842004B2', 'US8321949B1', 'WO2010028071A1', 'US9280335B2', 'EP2175614B1', 'US8041987B2', 'US8914783B2', 'US10025627B2', 'US8291414B2', 'US8463884B2', 'US20100262508A1', 'JP5156682B2', 'JP5103441B2', 'US20100306767A1', 'JP5097750B2', 'US8352941B1', 'US9448852B2', 'US20110119191A1', 'US8392497B2', 'JP4939594B2', 'US20110137805A1', 'US8789041B2', 'US8316120B2', 'CN102169484B', 'US20110214124A1', 'US20110213687A1', 'US10339575B2', 'US8627426B2', 'US8813065B2', 'US20110289499A1', 'US8606897B2', 'US8954564B2', 'US20120054731A1', 'US8380837B2', 'JP4743726B1', 'US9288117B1', 'US8959221B2', 'US9383800B2', 'US8898630B2', 'US20120265561A1', 'US8601583B1', 'WO2012146985A2', 'US9489666B2', 'US8732401B2', 'US8954586B2', 'US8707289B2', 'US9626700B1', 'US9530156B2', 'US8776043B1', 'US10147123B2', 'US8694786B2']",['CN110275742A'],['CN102169484B'],"['CN110275742A', 'CN102169484B']"
+IN2012DN03317A,Patent IN2012DN03317A ,IN,2015-10-23,"A system that incorporates teachings of the present disclosure may include, for example, a communication device having a controller to provision a matching network that controls one or more operational characteristics of one of a receiver portion and a transmitter portion of the communication device according to a profile describing one or more characteristics of a communication system from which the communication device operates. Additional embodiments are disclosed.",H04B1/0458,Arrangements for matching and coupling between power amplifier and antenna or between amplifying stages,,,Keith R Manseen,"['US8064188B2', 'US8744384B2', 'US9406444B2', 'US7711337B2', 'US7535312B2', 'US7714676B2', 'US7917104B2', 'US8213886B2', 'US7991363B2', 'US8072285B2', 'US8472888B2', 'US9026062B2', 'US8803631B2', 'CA2797074C', 'US8644779B2', 'US8903333B1', 'US9020455B1', 'US9379454B2', 'US8712340B2', 'US8655286B2', 'US20120225630A1', 'WO2012140640A1', 'US8594584B2', 'US8626083B2', 'US9769826B2', 'CN103419176B', 'US8948889B2', 'US9853363B2', 'US9246223B2', 'US9413066B2', 'EP2688212B1', 'US9350405B2', 'EP2688141B1', 'US9362891B2', 'US10404295B2', 'US9374113B2', 'CN103973322A', 'EP2779738B1', 'US9307505B2', 'US9438319B2', 'CN105490686B', 'US10536943B2', 'US10461782B2', 'US10128885B2', 'KR102582479B1', 'US20220385237A1']","['US2745067A', 'US3160832A', 'US3117279A', 'US3390337A', 'US3443231A', 'US3509500A', 'US3571716A', 'US3590385A', 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'US20080274706A1', 'US8213886B2', 'US20080285729A1', 'JP2008287674A', 'US8224400B2', 'US8583065B2', 'US8126410B2', 'US8711102B2', 'US7567129B2', 'KR100853468B1', 'JP4966125B2', 'US7830320B2', 'US7768462B2', 'FI120427B', 'US7786819B2', 'US8073500B2', 'US7982683B2', 'FI20075690A0', 'US7986924B2', 'US7991363B2', 'WO2009066132A1', 'US20090149136A1', 'JP4358886B2', 'US20090180403A1', 'EP3346611B1', 'US8614646B2', 'US8351874B2', 'US8112043B2', 'KR20090110669A', 'US7911345B2', 'US8417296B2', 'ES2572889T3', 'WO2009155984A1', 'US8350763B2', 'US8068798B2', 'WO2010028521A1', 'US8072285B2', 'EP2342925A1', 'DE102008050743B4', 'CN102196972B', 'US20100107067A1', 'US8447255B2', 'US8174341B2', 'JP4670970B2', 'JP5412871B2', 'US8320850B1', 'US8803474B2', 'US8086174B2', 'DE102009018648B4', 'US8232925B2', 'US8170510B2', 'US8135354B2', 'US9143172B2', 'RU2535220C2', 'US9087281B2', 'CN101640949B', 'US20110014879A1', 'CA2709616C', 'US20110012792A1', 'JP5418042B2', 'US8331254B2', 'US7996035B2', 'US8472888B2', 'WO2011024280A1', 'US8442457B2', 'US8131232B2', 'US9026062B2', 'US8774743B2', 'US8190109B2', 'US8204446B2', 'EP2522074A1', 'US8483632B2', 'US8774067B2', 'JP2011109539A', 'US8706053B2', 'JP5532847B2', 'JP5531582B2', 'US8543176B1', 'US20110249760A1', 'US8380146B2', 'KR101629519B1', 'US20110195679A1', 'JPWO2011102143A1', 'GB201003456D0', 'US8803631B2', 'US9112277B2', 'US20110256857A1', 'CA2797074C', 'US8644779B2', 'US8294632B2', 'US8886135B2', 'US8923168B2', 'US8446318B2', 'EP2589161A4', 'US8553563B2', 'CN201765685U', 'TWI407691B', 'US8712348B2', 'TWI452850B', 'US20120084537A1', 'US9642021B2', 'JP5685652B2', 'KR101682384B1', 'US8947302B2', 'US9379454B2', 'US9479130B2', 'DE112010006030T5', 'US8587495B2', 'WO2012085932A2', 'US8712340B2', 'US8655286B2', 'US8938026B2', 'WO2012125176A1', 'US8594584B2', 'US8626083B2', 'TWI423601B', 'US9578159B2', 'US8929838B2', 'US8712355B2', 'US8502329B2', 'US9673520B2', 'US9583824B2', 'US8995936B2', 'EP2781030B1', 'US9041617B2', 'WO2013112596A1', 'US9331720B2', 'US9307489B2', 'US8773019B2', 'US9281849B2', 'US9203139B2', 'US8948889B2', 'US9853363B2', 'EP2688144B1', 'US9350405B2', 'JP2014116883A', 'US10404295B2', 'US9374113B2', 'US9473194B2', 'CN105214457B', 'US9438319B2', 'US9762416B2']","['CN103419176B', 'CN103973322A', 'CN105490686B']","['CN1254925C', 'CN101015129A', 'CN102196972B', 'RU2535220C2', 'CN101640949B', 'CN201765685U', 'CN105214457B']","['CN103419176B', 'CN103973322A', 'CN105490686B', 'CN1254925C', 'CN101015129A', 'CN102196972B', 'RU2535220C2', 'CN101640949B', 'CN201765685U', 'CN105214457B']"
+IN2015DN01703A,Patent IN2015DN01703A ,IN,2015-05-22,One aspect of the teachings herein involves the advantageous use of learned statistical information to improve inter cell interference coordination 'ICIC'. A network (20) uses historical signal quality measurements collected over time for wireless communication devices (36) operating within its coverage areas to identify those geographical areas where devices (36) generally experience significant levels of patterned interference. In an example case the network (20) develops a 'map' of the geographical areas that are affected by the transmission patterns of neighboring nodes (26 30) and it applies the map to ICIC operations wherein the serving nodes associated with the affected areas incorporate knowledge of the interfering transmission patterns into the ongoing scheduling of devices (36) operating in the affected areas.,H04W16/10,Dynamic resource partitioning,,,Konstantinos Dimou,"['GB2496908B', 'EP2832150B1', 'US9374715B2', 'IL222709A', 'US9014004B2', 'US9167444B2', 'IL224926A0', 'US9319916B2', 'GB2518584B', 'US9414310B2', 'KR20150086992A', 'US9775116B2', 'US9655102B2', 'US9402195B2', 'US9844070B2', 'US9729396B2', 'EP3219162B1', 'US9930550B2', 'US9918314B2', 'EP3651386B1', 'US10244422B2', 'US9860852B2', 'US9648569B2', 'US9826408B2', 'US10143002B2', 'US9813970B2', 'US10420134B2', 'US10091697B1', 'CA3024175C', 'US11096181B2', 'US10298279B2', 'US10284313B2', 'US10812121B2', 'EP3782413B1', 'WO2021136618A1', 'WO2022043608A1']","['US7477914B2', 'US7634235B2', 'US20080070510A1', 'KR101427232B1', 'US8200263B2', 'US8493919B2', 'US8411646B2', 'JP4990226B2', 'US8233427B2', 'JP5029512B2', 'US8422461B2', 'US8660600B2', 'CN104468068B', 'US9088337B2', 'KR101838067B1', 'KR20110049623A', 'KR101770209B1', 'US8868091B2', 'WO2012008773A2', 'US8934896B2', 'US9042259B2', 'US8767616B2']","['GB2496908B', 'EP2832150B1', 'US9374715B2', 'IL222709A', 'US9014004B2', 'US9167444B2', 'IL224926A0', 'US9319916B2', 'GB2518584B', 'US9414310B2', 'KR20150086992A', 'US9775116B2', 'US9655102B2', 'US9402195B2', 'US9844070B2', 'US9729396B2', 'EP3219162B1', 'US9930550B2', 'US9918314B2', 'EP3651386B1', 'US10244422B2', 'US9860852B2', 'US9648569B2', 'US9826408B2', 'US10143002B2', 'US9813970B2', 'US10420134B2', 'US10091697B1', 'CA3024175C', 'US11096181B2', 'US10298279B2', 'US10284313B2', 'US10812121B2', 'EP3782413B1', 'WO2021136618A1', 'WO2022043608A1', 'US7477914B2', 'US7634235B2', 'US20080070510A1', 'KR101427232B1', 'US8200263B2', 'US8493919B2', 'US8411646B2', 'JP4990226B2', 'US8233427B2', 'JP5029512B2', 'US8422461B2', 'US8660600B2', 'CN104468068B', 'US9088337B2', 'KR101838067B1', 'KR20110049623A', 'KR101770209B1', 'US8868091B2', 'WO2012008773A2', 'US8934896B2', 'US9042259B2', 'US8767616B2']",[],['CN104468068B'],['CN104468068B']
+IN2014CN00810A,Patent IN2014CN00810A ,IN,2015-04-03,Methods systems and devices for controlling access to messaging (SMS MMS email etc.) on mobile devices (e.g. cell phones) during times or in locations in which such activity is prohibited or inhibited by the parental control settings. Parental control settings limit messaging features available to mobile devices to certain times and/or locations (704 706). Messages received at restricted times/locations are stored in temporary memory (712) without notifying the mobile device user (i.e. messages are not placed in the inbox) unless the message is received from a pre approved source (e.g. parent teachers etc.). Once the context for restricting access to messaging (e.g. time location etc.) no longer applies (714) the stored messages may be transferred from the temporary memory to the inbox (716 708) and the user may be alerted regarding the new message.,H04L51/212,Monitoring or handling of messages using filtering or selective blocking,,,Stephen A Sprigg,"['US8380176B2', 'US20130055350A1', 'US8812994B2', 'US9094534B2', 'US9292195B2', 'US9372978B2', 'US10070195B1', 'US10404615B2', 'US9680763B2', 'US9049305B2', 'US9288655B2', 'US9282898B2', 'GR20120100577A', 'US20140173747A1', 'US20140280955A1', 'US9231954B2', 'US20140280620A1', 'WO2014179743A1', 'US9219741B2', 'BR102013017941B1', 'CN104349370A', 'EP3028058A4', 'CN103491231A', 'US9148869B2', 'CN104660626A', 'US9626720B2', 'US9485206B2', 'US20150256423A1', 'KR102318907B1', 'CN104063655B', 'US10255449B2', 'CN104063654B', 'US20150373504A1', 'CN104093134A', 'KR20160070471A', 'CN104468802B', 'US9584964B2', 'US10515344B1', 'US20160260347A1', 'CN106465076B', 'CN106156923A', 'KR102340843B1', 'US10409967B2', 'WO2016210327A1', 'US9906516B2', 'US10282719B1', 'US9817992B1', 'KR102364087B1', 'US10972476B2', 'JP6900552B2', 'CN107239263B', 'CN106817480A', 'US10206096B2', 'US10754986B2', 'US10499249B1', 'JP6640798B2', 'CN109194817A', 'CN109756871B', 'US11188677B2', 'JP2021097353A', 'US11140240B1', 'CN111859131B', 'US11960615B2']","['JP3641934B2', 'CN1458802A', 'US7330713B2', 'JP5043431B2', 'US7869790B2', 'JP2006293621A', 'GB2431072A', 'US20080005325A1', 'US8526979B2', 'US20080287106A1', 'CN101119550B', 'GB2456754A', 'US8107944B2', 'JP4976360B2', 'JP2010226601A', 'US9130779B2', 'EP2273757A1', 'US8347362B2', 'US8301168B2', 'US20120303439A1', 'US8290542B2']","['US8380176B2', 'US20130055350A1', 'US8812994B2', 'US9094534B2', 'US9292195B2', 'US9372978B2', 'US10070195B1', 'US10404615B2', 'US9680763B2', 'US9049305B2', 'US9288655B2', 'US9282898B2', 'GR20120100577A', 'US20140173747A1', 'US20140280955A1', 'US9231954B2', 'US20140280620A1', 'WO2014179743A1', 'US9219741B2', 'BR102013017941B1', 'CN104349370A', 'EP3028058A4', 'CN103491231A', 'US9148869B2', 'CN104660626A', 'US9626720B2', 'US9485206B2', 'US20150256423A1', 'KR102318907B1', 'CN104063655B', 'US10255449B2', 'CN104063654B', 'US20150373504A1', 'CN104093134A', 'KR20160070471A', 'CN104468802B', 'US9584964B2', 'US10515344B1', 'US20160260347A1', 'CN106465076B', 'CN106156923A', 'KR102340843B1', 'US10409967B2', 'WO2016210327A1', 'US9906516B2', 'US10282719B1', 'US9817992B1', 'KR102364087B1', 'US10972476B2', 'JP6900552B2', 'CN107239263B', 'CN106817480A', 'US10206096B2', 'US10754986B2', 'US10499249B1', 'JP6640798B2', 'CN109194817A', 'CN109756871B', 'US11188677B2', 'JP2021097353A', 'US11140240B1', 'CN111859131B', 'US11960615B2', 'JP3641934B2', 'CN1458802A', 'US7330713B2', 'JP5043431B2', 'US7869790B2', 'JP2006293621A', 'GB2431072A', 'US20080005325A1', 'US8526979B2', 'US20080287106A1', 'CN101119550B', 'GB2456754A', 'US8107944B2', 'JP4976360B2', 'JP2010226601A', 'US9130779B2', 'EP2273757A1', 'US8347362B2', 'US8301168B2', 'US20120303439A1', 'US8290542B2']","['BR102013017941B1', 'CN104349370A', 'CN103491231A', 'CN104660626A', 'CN104063655B', 'CN104063654B', 'CN104093134A', 'CN104468802B', 'CN106465076B', 'CN106156923A', 'CN107239263B', 'CN106817480A', 'CN109194817A', 'CN109756871B', 'CN111859131B']","['CN1458802A', 'CN101119550B']","['BR102013017941B1', 'CN104349370A', 'CN103491231A', 'CN104660626A', 'CN104063655B', 'CN104063654B', 'CN104093134A', 'CN104468802B', 'CN106465076B', 'CN106156923A', 'CN107239263B', 'CN106817480A', 'CN109194817A', 'CN109756871B', 'CN111859131B', 'CN1458802A', 'CN101119550B']"
+IN2015DN02827A,Patent IN2015DN02827A ,IN,2015-09-11,"Provided is a sub operation panel (60) that is one example of a portable- type operation instruction input device, the panel being removably disposed to an automatic turning device main unit (10) and being provided with the following: an input section (66) into which the operation instructions for the automatic turning device main unit (10) are input; a display section (65) for displaying information related to the automatic turning device main unit (10); and a wireless communication section (67) for performing communication with the automatic turning device main unit (10). Provided is the sub operation panel , wherein formed between the sub operation panel (60) and the automatic turning device main unit (10), are the following: a detection means having a wireless ID tag (63) and a wireless ID reader (18) for detecting placement of the sub operation panel within a prescribed range of the automatic turning device main unit (10); and a control section (68) that in accordance with the detection results of the detection means allows or restricts operation of the automatic turning device main unit (10), and allows information display even when operation of the automatic turning device main unit is restricted.",G05B19/409,"Numerical control [NC], i.e. automatically operating machines, in particular machine tools, e.g. in a manufacturing environment, so as to execute positioning, movement or co-ordinated operations by means of programme data in numerical form characterised by using manual data input [MDI] or by using control panel, e.g. controlling functions with the panel; characterised by control panel details or by setting parameters",,,YANAGLDAIRA Shigeo,"['JP6424064B2', 'JP6436980B2', 'JP6422691B2', 'JP5816723B1', 'JP6453007B2', 'JP5993915B2', 'DE112015004036B4', 'WO2016140001A1', 'JP6495202B2', 'DE102016225686A1', 'EP3373084A1', 'DE102017220260A1', 'DE102018128116A1', 'DE102020109397B3']","['JPH03116405U', 'JPH03116405A', 'JPH0655476A', 'JPH07225604A', 'JP2672487B2', 'JP4153575B2', 'WO1998047128A1', 'JP2001273018A', 'DE10055025B4', 'DE10391618D2', 'JP3937079B2', 'SE0402696D0', 'JP4353426B2', 'ATE394204T1', 'JP2007122196A', 'WO2007094175A1', 'JP2007233817A', 'JP2008193507A', 'JP4896775B2', 'DE102007041768B4', 'JP5099602B2', 'JP2009301271A', 'JP5345817B2', 'DE102009003134A1', 'JP5126176B2', 'JP2011048625A', 'JP2011218450A', 'JP2011255472A', 'JP5709411B2', 'JP2012048625A', 'JP2012084973A', 'JP5774317B2', 'US9116663B2']","['JP6424064B2', 'JP6436980B2', 'JP6422691B2', 'JP5816723B1', 'JP6453007B2', 'JP5993915B2', 'DE112015004036B4', 'WO2016140001A1', 'JP6495202B2', 'DE102016225686A1', 'EP3373084A1', 'DE102017220260A1', 'DE102018128116A1', 'DE102020109397B3', 'JPH03116405U', 'JPH03116405A', 'JPH0655476A', 'JPH07225604A', 'JP2672487B2', 'JP4153575B2', 'WO1998047128A1', 'JP2001273018A', 'DE10055025B4', 'DE10391618D2', 'JP3937079B2', 'SE0402696D0', 'JP4353426B2', 'ATE394204T1', 'JP2007122196A', 'WO2007094175A1', 'JP2007233817A', 'JP2008193507A', 'JP4896775B2', 'DE102007041768B4', 'JP5099602B2', 'JP2009301271A', 'JP5345817B2', 'DE102009003134A1', 'JP5126176B2', 'JP2011048625A', 'JP2011218450A', 'JP2011255472A', 'JP5709411B2', 'JP2012048625A', 'JP2012084973A', 'JP5774317B2', 'US9116663B2']",[],[],[]
+IN2014DN07399A,Patent IN2014DN07399A ,IN,2015-04-24,Described herein is the generation of optimized H5N1 and H1N1 influenza HA polypeptides for eliciting a broadly reactive immune response to influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on H5N1 and H1N1 influenza isolates. Provided herein are optimized H5N1 and H1N1 influenza HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,A61K39/145,"Orthomyxoviridae, e.g. influenza virus",,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'US9309290B2', 'US20140286981A1', 'WO2016100926A1', 'US10220086B2', 'WO2016196846A2', 'EP3307761A4', 'WO2017053413A1', 'US10844097B2', 'IL312520A', 'EP3774884B1', 'CN112153981A', 'WO2019195284A1', 'WO2019195316A1', 'MX2021005257A']","['ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'US8030029B2', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'US9309290B2']","['AU2011302360B2', 'KR20140047069A', 'US9309290B2', 'US20140286981A1', 'WO2016100926A1', 'US10220086B2', 'WO2016196846A2', 'EP3307761A4', 'WO2017053413A1', 'US10844097B2', 'IL312520A', 'EP3774884B1', 'CN112153981A', 'WO2019195284A1', 'WO2019195316A1', 'MX2021005257A', 'ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'US8030029B2', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'US9309290B2']",['CN112153981A'],[],['CN112153981A']
+IN2015DN04304A,Patent IN2015DN04304A ,IN,2015-10-16,A micro unmanned aerial vehicle or drone ('UAV') 10 is remotely controlled through an HMI (309) although this remote control is supplemented by and selectively suppressed by an on board controller (302). The controller operates to control the generation of a sonar bubble that generally encapsulates the UAV. The sonar bubble which may be ultrasonic in nature is produced by a multiplicity of sonar lobes generated by specific sonar emitters associated with each axis of movement for the UAV. The emitters produce individual and beamformed sonar lobes (80 102) that partially overlap to provide stereo or bioptic data in the form of individual echo responses detected by axis specific sonar detectors (40 68). In this way the on board controller is able to interpret and then generate 3 D spatial imaging of the physical environment in which the UAV is currently moving or positioned. The controller is therefore able to plot relative and absolute movement of the UAV through the 3 D space by recording measurements from on board gyroscopes (342) magnetometers (344) and accelerometers (346). Data from the sonar bubble can therefore both proactively prevent collisions with objects by imposing a corrective instruction to rotors (12 18) and other flight control system and can also assess and compensate for sensor drift.,G05D1/106,"Change initiated in response to external conditions, e.g. avoidance of elevated terrain or of no-fly zones",,,Ivan Reedman,"['WO2020039394A1', 'US7356390B2', 'US9908608B2', 'US20120310445A1', 'GB201218963D0', 'US8818572B1', 'US9562773B2', 'US10088336B2', 'US10338162B2', 'US9910105B2', 'US10168393B2', 'US9910104B2', 'US9823313B2', 'US10520558B2', 'US9845153B2', 'US9557391B2', 'US10088452B2', 'US9614589B1', 'US9853837B2', 'US9638821B2', 'CA2945016A1', 'US9875661B2', 'US12007763B2', 'US9678506B2', 'US9798322B2', 'GB201411293D0', 'US10780988B2', 'US10671094B2', 'WO2016025488A2', 'CN106030431B', 'CN104199455A', 'EP3428766B1', 'JP6278539B2', 'US9618934B2', 'JP6557958B2', 'JP6528382B2', 'US10334158B2', 'US10752378B2', 'CA2972348C', 'MX2017008552A', 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'US10520943B2', 'US10007265B1', 'WO2018035482A1', 'EP3978363B1', 'CN106598066A', 'US11295458B2', 'EP3558815B1', 'CN107000833B', 'IL267810B', 'GB2556644B', 'CN106980805B', 'JP6831274B2', 'US10459041B2', 'US10338164B2', 'US10379174B2', 'US10371760B2', 'CN107229284B', 'CN107284663B', 'CN107728631B', 'US20190100306A1', 'WO2019119355A1', 'CN108287562B', 'US10750733B1', 'CN108919823A', 'US11119212B2', 'US10546371B1', 'US10957209B2', 'US11037453B2', 'US11086312B2', 'CN109515692B', 'CN109703751B', 'US11858625B1', 'KR102162055B1', 'JP7531133B2', 'CN112533286A', 'US11435761B1', 'US11427305B1', 'US11465734B1', 'CN114020036B', 'DE102022203653B4', 'US20240239531A1']","['US3617995A', 'US4654835A', 'FR2631455B1', 'FR2646925B1', 'FR2653564B1', 'FR2756931B1', 'US6804607B1', 'US20060287829A1', 'US8855846B2', 'US7929375B2', 'US8265817B2', 'JP5688700B2', 'CN201727964U', 'GB201218963D0']","['WO2020039394A1', 'US7356390B2', 'US9908608B2', 'US20120310445A1', 'GB201218963D0', 'US8818572B1', 'US9562773B2', 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'CN109703751B', 'US11858625B1', 'KR102162055B1', 'JP7531133B2', 'CN112533286A', 'US11435761B1', 'US11427305B1', 'US11465734B1', 'CN114020036B', 'DE102022203653B4', 'US20240239531A1', 'US3617995A', 'US4654835A', 'FR2631455B1', 'FR2646925B1', 'FR2653564B1', 'FR2756931B1', 'US6804607B1', 'US20060287829A1', 'US8855846B2', 'US7929375B2', 'US8265817B2', 'JP5688700B2', 'CN201727964U', 'GB201218963D0']","['CN106030431B', 'CN104199455A', 'CN105203084B', 'CN105824011A', 'CN105955298B', 'CN107479568A', 'CN106054199B', 'CN106598066A', 'CN107000833B', 'CN106980805B', 'CN107229284B', 'CN107284663B', 'CN107728631B', 'CN108287562B', 'CN108919823A', 'CN109515692B', 'CN109703751B', 'CN112533286A', 'CN114020036B']",['CN201727964U'],"['CN106030431B', 'CN104199455A', 'CN105203084B', 'CN105824011A', 'CN105955298B', 'CN107479568A', 'CN106054199B', 'CN106598066A', 'CN107000833B', 'CN106980805B', 'CN107229284B', 'CN107284663B', 'CN107728631B', 'CN108287562B', 'CN108919823A', 'CN109515692B', 'CN109703751B', 'CN112533286A', 'CN114020036B', 'CN201727964U']"
+IN2014DN10161A,Patent IN2014DN10161A ,IN,2015-08-21,"A method of forming a microneedle array can include forming a microneedle array that has one or more bioactive component. The microneedle array can include a base portion and plurality of microneedles extending from the base portion, and the one or more bioactive components are present in a higher concentration in the plurality of microneedles than in the base portion.",B29C67/00,"Shaping techniques not covered by groups B29C39/00 - B29C65/00, B29C70/00 or B29C73/00",,,Louis D Falo Jr,"['US8834423B2', 'EP4112112A1', 'JP2015157072A', 'WO2015164840A1', 'CA2967017C', 'US10441768B2', 'WO2016172554A1', 'MX2018000126A', 'US11684763B2', 'KR101811513B1', 'WO2017120322A1', 'US20170209553A1', 'EP3434314B1', 'KR101719319B1', 'US20200230846A1', 'KR101692266B1', 'JP6700144B2', 'US10913776B2', 'CN107913459A', 'CN107913460B', 'EP3582752A1', 'CN106727273A', 'US11701506B2', 'US11541015B2', 'JP7295811B2', 'US20210128897A1', 'JP6624333B2', 'WO2019094349A1', 'WO2019222570A1', 'AU2019352901A1', 'US20200131483A1', 'EP3772329A1', 'CN110368576A', 'US11213482B1', 'US11202753B1', 'BR112022022039A2', 'US20220008007A1', 'CN112569465B', 'WO2022246144A1', 'GB2607115B']","['US5246783A', 'US6290991B1', 'US7422574B2', 'US5658515A', 'EP0925088A2', 'JP2001512329A', 'US6503231B1', 'US6496629B2', 'US6611707B1', 'US6743211B1', 'US6256533B1', 'US6312612B1', 'US6379324B1', 'US6331266B1', 'US6511463B1', 'IL134997A0', 'US6595947B1', 'US6607513B1', 'US6623707B1', 'US20050008683A1', 'US6656147B1', 'US6533949B1', 'CZ20031037A3', 'US7108681B2', 'US9302903B2', 'US6767211B2', 'US6663820B2', 'US20020193729A1', 'WO2003002069A2', 'US6881203B2', 'US8361037B2', 'US7429258B2', 'US6908453B2', 'US6714707B2', 'US7588552B2', 'US6945952B2', 'US6899838B2', 'AU2003275311A1', 'WO2004033021A1', 'IL152271A', 'US7578954B2', 'US8796436B2', 'JP2005035945A', 'CN1863572A', 'US8353861B2', 'BRPI0415986A', 'EP1740256A4', 'EP1699524A4', 'EP1713533A4', 'GB0402131D0', 'US8551391B2', 'CN100540086C', 'US7591806B2', 'US7315758B2', 'EP1789127A2', 'EP1786580B1', 'US7316665B2', 'US7132054B1', 'KR101246015B1', 'KR101224257B1', 'US8267889B2', 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'US7316665B2', 'US7132054B1', 'KR101246015B1', 'KR101224257B1', 'US8267889B2', 'US8057842B2', 'CA2589733C', 'JP4913030B2', 'WO2006138719A2', 'US8376984B2', 'US8012103B2', 'US8784860B2', 'WO2007064486A1', 'US7658728B2', 'ATE532553T1', 'US7699819B2', 'EP2007423A2', 'WO2007127976A2', 'US7918814B2', 'TW200744534A', 'DE102006028781A1', 'US8250729B2', 'KR100781702B1', 'WO2008020631A1', 'JPWO2008020633A1', 'DE102006040642A1', 'US8785400B2', 'US7785301B2', 'JP2008142183A', 'TW200829215A', 'US8821446B2', 'US8560059B2', 'EP2146689B1', 'EP2153863B1', 'JP2008284318A', 'WO2008157592A1', 'EP3895737A1', 'US20090016935A1', 'US20090017210A1', 'CN101801343A', 'WO2009021048A2', 'WO2009036313A1', 'EP2200499B1', 'JP5559054B2', 'GB0719577D0', 'EP2213284B1', 'CN103961792B', 'GB0725018D0', 'WO2009105564A2', 'EP2100850A1', 'NL2001718C2', 'US8795259B2', 'CA2964564C', 'CN101347652B', 'JP5063544B2', 'US8784385B2', 'US8793075B2', 'US8788211B2', 'US8788212B2', 'US8734697B2', 'JP5709137B2', 'US8798722B2', 'KR101142730B1', 'JP2010233673A', 'US9517023B2', 'EP2441437B1', 'KR101213223B1', 'WO2011010605A1', 'WO2011050283A2', 'US8834423B2', 'US8439896B2', 'US8888761B2', 'US8321012B2', 'EP2338557A1', 'USD638534S1', 'USD619245S1', 'US8328757B2', 'JP2011224332A', 'US8545741B2', 'WO2012006677A1', 'US8784373B2', 'JP5770055B2', 'EP3495015B1', 'AU2011326732B2', 'US8784383B2', 'US8795234B2', 'US8795230B2', 'AR085406A1', 'US8696637B2', 'WO2012122163A1', 'GB201107642D0', 'US8636696B2', 'KR101881609B1', 'CN103301092B', 'EP4112112A1', 'US9526884B2']","['CN107913459A', 'CN107913460B', 'CN106727273A', 'CN110368576A', 'BR112022022039A2', 'CN112569465B']","['CN1863572A', 'BRPI0415986A', 'CN100540086C', 'CN101801343A', 'CN103961792B', 'CN101347652B', 'CN103301092B']","['CN107913459A', 'CN107913460B', 'CN106727273A', 'CN110368576A', 'BR112022022039A2', 'CN112569465B', 'CN1863572A', 'BRPI0415986A', 'CN100540086C', 'CN101801343A', 'CN103961792B', 'CN101347652B', 'CN103301092B']"
+IN2013MN02416A,Patent IN2013MN02416A ,IN,2015-06-12,Systems and methods for generating a Long Term Evolution network return procedure. A mobile terminal may generate in absence of redirection instruction from a circuit switched network a Long Term Evolution network return procedure that when instantiated by the mobile terminal implements connection of the mobile terminal to a Long Term Evolution network based on measured signal strength of at least one Long Term Evolution network access point.,H04W36/00224,"Control or signalling for completing the hand-off for data sessions of end-to-end connection for transferring data sessions between adjacent core network technologies between packet switched [PS] and circuit switched [CS] network technologies, e.g. circuit switched fallback [CSFB]",,,Wei Han,"['US9386484B2', 'US20150003411A1', 'US9485718B2', 'US9794832B2', 'CN105592507B', 'WO2016068777A1', 'WO2016065535A1', 'CN104410998A', 'CN104320819B', 'US20160234724A1', 'CN106604329B', 'CN105430696B', 'US10219187B2', 'US10911989B2', 'CN106937353A', 'CN105898699B', 'EP3244655B1', 'CN105898812B', 'WO2018001278A1', 'US10440645B2', 'WO2018082039A1', 'CN108377521B', 'CN108616940A', 'CN108632937B', 'CN108696382B', 'CN107231667A', 'WO2019061453A1', 'KR102031189B1', 'WO2019148552A1', 'CN110366214B', 'CN111955028B', 'CN110741681B', 'CN110213838B', 'CN111918272B', 'CN113747517B', 'CN113766579B', 'CN114071593B']","['US6845238B1', 'EP1229749B1', 'US20020110104A1', 'US8099104B2', 'US8027306B2', 'US8588759B2', 'WO2009055827A1', 'US20090268722A1', 'JP5504623B2', 'US8818356B2', 'CN101902793A', 'US20110039578A1', 'KR101750371B1', 'US8600390B2', 'US8737998B2', 'US8582505B2', 'CN102364976B', 'CN101925147B', 'CN102404815A', 'JP5584081B2', 'CN103210683A', 'US8195166B1', 'US9210639B2', 'EP2668805B1', 'US8913591B2', 'CN103535071B', 'US9131476B2', 'US9578554B2', 'US20130084850A1', 'US9049633B2', 'EP2826155A1', 'US9332460B2', 'WO2014104960A1']","['US9386484B2', 'US20150003411A1', 'US9485718B2', 'US9794832B2', 'CN105592507B', 'WO2016068777A1', 'WO2016065535A1', 'CN104410998A', 'CN104320819B', 'US20160234724A1', 'CN106604329B', 'CN105430696B', 'US10219187B2', 'US10911989B2', 'CN106937353A', 'CN105898699B', 'EP3244655B1', 'CN105898812B', 'WO2018001278A1', 'US10440645B2', 'WO2018082039A1', 'CN108377521B', 'CN108616940A', 'CN108632937B', 'CN108696382B', 'CN107231667A', 'WO2019061453A1', 'KR102031189B1', 'WO2019148552A1', 'CN110366214B', 'CN111955028B', 'CN110741681B', 'CN110213838B', 'CN111918272B', 'CN113747517B', 'CN113766579B', 'CN114071593B', 'US6845238B1', 'EP1229749B1', 'US20020110104A1', 'US8099104B2', 'US8027306B2', 'US8588759B2', 'WO2009055827A1', 'US20090268722A1', 'JP5504623B2', 'US8818356B2', 'CN101902793A', 'US20110039578A1', 'KR101750371B1', 'US8600390B2', 'US8737998B2', 'US8582505B2', 'CN102364976B', 'CN101925147B', 'CN102404815A', 'JP5584081B2', 'CN103210683A', 'US8195166B1', 'US9210639B2', 'EP2668805B1', 'US8913591B2', 'CN103535071B', 'US9131476B2', 'US9578554B2', 'US20130084850A1', 'US9049633B2', 'EP2826155A1', 'US9332460B2', 'WO2014104960A1']","['CN105592507B', 'CN104410998A', 'CN104320819B', 'CN106604329B', 'CN105430696B', 'CN106937353A', 'CN105898699B', 'CN105898812B', 'CN108377521B', 'CN108616940A', 'CN108632937B', 'CN108696382B', 'CN107231667A', 'CN110366214B', 'CN111955028B', 'CN110741681B', 'CN110213838B', 'CN111918272B', 'CN113747517B', 'CN113766579B', 'CN114071593B']","['CN101902793A', 'CN102364976B', 'CN101925147B', 'CN102404815A', 'CN103210683A', 'CN103535071B']","['CN105592507B', 'CN104410998A', 'CN104320819B', 'CN106604329B', 'CN105430696B', 'CN106937353A', 'CN105898699B', 'CN105898812B', 'CN108377521B', 'CN108616940A', 'CN108632937B', 'CN108696382B', 'CN107231667A', 'CN110366214B', 'CN111955028B', 'CN110741681B', 'CN110213838B', 'CN111918272B', 'CN113747517B', 'CN113766579B', 'CN114071593B', 'CN101902793A', 'CN102364976B', 'CN101925147B', 'CN102404815A', 'CN103210683A', 'CN103535071B']"
+IN2014MN01776A,Patent IN2014MN01776A ,IN,2015-07-03,The present invention pertaining to the field of computer technologies discloses an application startup method and apparatus. The method includes: loading upon receiving an instruction for starting up an application program prefetch data corresponding to the application program where the prefetch data includes at least one file block corresponding to at least one page fault occurred during a history startup process of the application program; and loading code of the application program to start up the application program. The apparatus includes: a prefetch data loading module and a code loading module. According to the present invention the number of page faults occurred during the startup process of the application program because a process cannot be mapped to a valid physical page when accessing a virtual page is greatly reduced. Further since before the code of the application program is loaded instead of all file blocks during the initial startup of the application program only the file block(s) corresponding to page fault(s) is loaded frequent memory page flipping and file flipping during the loading process of the application program are mitigated and startup speed and startup efficiency of the application program are improved.,G06F11/079,"Root cause analysis, i.e. error or fault diagnosis",,,Chao Bian,"['CN102662690B', 'CN103914318A', 'CN104021071A', 'CN103150186B', 'CN103345405B', 'CN104281528B', 'KR102126566B1', 'US9411638B2', 'CN104133691B', 'CN106293792B', 'CN104932885B', 'CN105446778B', 'CN105893087A', 'CN107315678A', 'CN105955741A', 'CN106126287A', 'CN107807839B', 'CN108228270B', 'CN108255546B', 'CN107277125A', 'US10782908B2', 'US11416395B2', 'US11099789B2', 'US10880401B2', 'CN108549556B', 'US10877892B2', 'US10852949B2', 'CN113391847A', 'CN114168224B', 'CN114237755A', 'CN115022890B']","['JP2722523B2', 'US6157935A', 'US7043524B2', 'US7334088B2', 'US7386679B2', 'US8838620B2', 'CN1889737A', 'US7594144B2', 'JP4986247B2', 'JP2011107925A', 'US9081501B2', 'JP5506418B2', 'CN101814038B', 'CN102662690B']","['CN102662690B', 'CN103914318A', 'CN104021071A', 'CN103150186B', 'CN103345405B', 'CN104281528B', 'KR102126566B1', 'US9411638B2', 'CN104133691B', 'CN106293792B', 'CN104932885B', 'CN105446778B', 'CN105893087A', 'CN107315678A', 'CN105955741A', 'CN106126287A', 'CN107807839B', 'CN108228270B', 'CN108255546B', 'CN107277125A', 'US10782908B2', 'US11416395B2', 'US11099789B2', 'US10880401B2', 'CN108549556B', 'US10877892B2', 'US10852949B2', 'CN113391847A', 'CN114168224B', 'CN114237755A', 'CN115022890B', 'JP2722523B2', 'US6157935A', 'US7043524B2', 'US7334088B2', 'US7386679B2', 'US8838620B2', 'CN1889737A', 'US7594144B2', 'JP4986247B2', 'JP2011107925A', 'US9081501B2', 'JP5506418B2', 'CN101814038B', 'CN102662690B']","['CN102662690B', 'CN103914318A', 'CN104021071A', 'CN103150186B', 'CN103345405B', 'CN104281528B', 'CN104133691B', 'CN106293792B', 'CN104932885B', 'CN105446778B', 'CN105893087A', 'CN107315678A', 'CN105955741A', 'CN106126287A', 'CN107807839B', 'CN108228270B', 'CN108255546B', 'CN107277125A', 'CN108549556B', 'CN113391847A', 'CN114168224B', 'CN114237755A', 'CN115022890B']","['CN1889737A', 'CN101814038B', 'CN102662690B']","['CN102662690B', 'CN103914318A', 'CN104021071A', 'CN103150186B', 'CN103345405B', 'CN104281528B', 'CN104133691B', 'CN106293792B', 'CN104932885B', 'CN105446778B', 'CN105893087A', 'CN107315678A', 'CN105955741A', 'CN106126287A', 'CN107807839B', 'CN108228270B', 'CN108255546B', 'CN107277125A', 'CN108549556B', 'CN113391847A', 'CN114168224B', 'CN114237755A', 'CN115022890B', 'CN1889737A', 'CN101814038B', 'CN102662690B']"
+IN2014CN03678A,Patent IN2014CN03678A ,IN,2015-09-25,A method for accelerating code optimization a microprocessor. The method includes fetching an incoming microinstruction sequence using an instruction fetch component and transferring the fetched macroinstructions to a decoding component for decoding into microinstructions. Optimization processing is performed by reordering the microinstruction sequence into an optimized microinstruction sequence comprising a plurality of dependent code groups. The plurality of dependent code groups are then output to a plurality of engines of the microprocessor for execution in parallel. A copy of the optimized microinstruction sequence is stored into a sequence cache for subsequent use upon a subsequent hit optimized microinstruction sequence.,G06F9/30145,"Instruction analysis, e.g. decoding, instruction word fields",,,Mohammad Abdallah,"['US8327115B2', 'EP2523101B1', 'KR101685247B1', 'EP2689327B1', 'CN108376097B', 'KR101966712B1', 'CN103649931B', 'KR101639853B1', 'KR101703401B1', 'WO2013077876A1', 'US9904625B2', 'WO2014150991A1', 'US9569216B2', 'WO2014151018A1', 'US10140138B2', 'US9891924B2', 'WO2014151043A1', 'US9886279B2', 'US10275255B2', 'US9811342B2', 'WO2014150971A1', 'WO2014150806A1', 'US10353680B2', 'US9733909B2', 'US20160026487A1', 'US20160026486A1', 'US11281481B2', 'US9946549B2', 'US20170302438A1', 'KR20180038793A', 'KR102195103B1', 'US10884751B2', 'CN113795823A', 'US11500803B2', 'US20230367600A1', 'CN115629807B']","['US727487A', 'US4075704A', 'US4228496A', 'US4245344A', 'US4527237A', 'US4414624A', 'US4524415A', 'US4597061B1', 'US4577273A', 'US4682281A', 'US4600986A', 'US4633434A', 'JPS6140643A', 'US4835680A', 'JPS6289149A', 'JPH0658650B2', 'US4920477A', 'US4943909A', 'US5339398A', 'US5471593A', 'US5197130A', 'US5317754A', 'US5317705A', 'US6282583B1', 'US5539911A', 'JPH0820949B2', 'JPH07502358A', 'KR100309566B1', 'EP0638183B1', 'DE69329260T2', 'JPH0637202A', 'JPH06110781A', 'US5493660A', 'US5513335A', 'US5819088A', 'JPH0784883A', 'US6948172B1', 'US5469376A', 'US5517651A', 'US5956753A', 'US5761476A', 'JP3048498B2', 'JPH07287668A', 'CN1084005C', 'US5548742A', 'US5813031A', 'US5640534A', 'US5835951A', 'JP3569014B2', 'US5724565A', 'US5655115A', 'US5675759A', 'US5634068A', 'US5751982A', 'US6209085B1', 'US6643765B1', 'US5710902A', 'US6341324B1', 'US5864657A', 'US5983327A', 'US5793941A', 'US5911057A', 'US5699537A', 'US6882177B1', 'US5754818A', 'US5904892A', 'US5752260A', 'US5806085A', 'US5829028A', 'US6108769A', 'US5881277A', 'US5860146A', 'US5903760A', 'US5974506A', 'US6167490A', 'KR19980032776A', 'KR19990076967A', 'US6253316B1', 'US5978906A', 'US5903750A', 'US6212542B1', 'US6134634A', 'US5918251A', 'US6016540A', 'US6065105A', 'US5802602A', 'US6088780A', 'US6075938A', 'US6073230A', 'JPH1124929A', 'US6170051B1', 'US6128728A', 'US6085315A', 'US6101577A', 'US5901294A', 'US6185660B1', 'US5905509A', 'US6226732B1', 'US5922065A', 'US6178482B1', 'US6021484A', 'US6256728B1', 'US6260131B1', 'US6016533A', 'US6219776B1', 'US6609189B1', 'JP3657424B2', 'US6216215B1', 'US6157998A', 'US6205545B1', 'US6115809A', 'US6256727B1', 'JPH11338710A', 'US6272616B1', 'US6988183B1', 'US6260138B1', 'US6122656A', 'US6272662B1', 'JP2000057054A', 'US8631066B2', 'US6339822B1', 'US6332189B1', 'GB9825102D0', 'JP3110404B2', 'US6490673B1', 'US6519682B2', 'US7020879B1', 'US6477562B2', 'US6247097B1', 'US6321298B1', 'JP3842474B2', 'US6327650B1', 'US6732220B2', 'US6668316B1', 'US6418530B2', 'US6437789B1', 'US6850531B1', 'US6212613B1', 'US6529928B1', 'EP1050808B1', 'US6449671B1', 'US6473833B1', 'US6643770B1', 'US6772325B1', 'US6704822B1', 'US6457120B1', 'US7441110B1', 'US7107434B2', 'AU2597401A', 'US6557095B1', 'US6542984B1', 'WO2001050253A1', 'US6594755B1', 'US6728872B1', 'GB0002848D0', 'GB2365661A', 'US6615340B1', 'US6604187B1', 'US6557083B1', 'US6704860B1', 'US7206925B1', 'US6728866B1', 'US6721874B1', 'US7757065B1', 'JP2002185513A', 'US6877089B2', 'US6907600B2', 'US6647466B2', 'FR2820921A1', 'US6985951B2', 'US6950927B1', 'US7200740B2', 'US7707397B2', 'US6658549B2', 'US6985591B2', 'US7203824B2', 'US7024545B1', 'US6954846B2', 'US6718440B2', 'US7150021B1', 'US7117347B2', 'US7272832B2', 'US6964043B2', 'GB2381886B', 'US7092869B2', 'US7363467B2', 'US6640333B2', 'US7055021B2', 'US7331040B2', 'US6839816B2', 'US6731292B2', 'JP3719509B2', 'US7565509B2', 'US6920530B2', 'US7113488B2', 'US7281055B2', 'US7117346B2', 'US6938151B2', 'US8024735B2', 'JP3845043B2', 'JP3982353B2', 'US6944744B2', 'US6950925B1', 'US7546422B2', 'TW200408242A', 'US6895491B2', 'US7334086B2', 'US6829698B2', 'US7213248B2', 'US7222218B2', 'US20040103251A1', 'CN1720494A', 'US6981083B2', 'US7073042B2', 'US20040117594A1', 'US20040122887A1', 'US7191349B2', 'US20040139441A1', 'US6925421B2', 'US7178010B2', 'US7089374B2', 'US7278030B1', 'US6912644B1', 'US7111145B1', 'US7143273B2', 'CN1214666C', 'US7058764B2', 'US7139855B2', 'US7290261B2', 'US7469407B2', 'EP1471421A1', 'US7055003B2', 'US7007108B2', 'WO2004114128A2', 'JP2005032018A', 'US7149872B2', 'WO2006082091A2', 'US7089398B2', 'US8296771B2', 'US7133950B2', 'US9032404B2', 'US7594089B2', 'US7610473B2', 'US7849297B2', 'US7111126B2', 'JP4057989B2', 'FR2860313B1', 'US7047322B1', 'US7373637B2', 'TWI281121B', 'US8407433B2', 'US7395372B2', 'US7243170B2', 'US20050120191A1', 'US20050132145A1', 'US7310722B2', 'US7293164B2', 'US20050204118A1', 'US20050216920A1', 'EP1731998A1', 'US7383427B2', 'US20050251649A1', 'US7418582B1', 'US7478198B2', 'US7594234B1', 'US7284092B2', 'US20050289530A1', 'EP1628235A1', 'US8044951B1', 'US7339592B2', 'US7398347B1', 'EP1619593A1', 'JP4064380B2', 'US8443171B2', 'US7213106B1', 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'CN103649931B', 'CN113795823A', 'CN115629807B']","['CN1084005C', 'CN1720494A', 'CN1214666C', 'CN100485636C', 'CN100495324C', 'CN101344840B', 'CN101582025B', 'CN101916180B', 'CN108376097B']","['CN108376097B', 'CN103649931B', 'CN113795823A', 'CN115629807B', 'CN1084005C', 'CN1720494A', 'CN1214666C', 'CN100485636C', 'CN100495324C', 'CN101344840B', 'CN101582025B', 'CN101916180B', 'CN108376097B']"
+IN2012DN06717A,Patent IN2012DN06717A ,IN,2015-10-23,A mosquito trap includes a container having an open end and a composition positioned in the container. The composition comprises at least one active agent. The mosquito trap also includes an enclosure protruding above the open end of the container. The enclosure includes an opening to access an interior of the enclosure and the open end of the container and at least one active agent.,A01M1/106,Catching insects by using Traps for flying insects,,,Dawn Wesson,"['WO2011094581A1', 'ES2367388B1', 'GB2507210B', 'US9155293B2', 'AU2013249080B2', 'CN103098781A', 'US9775335B2', 'MX2015012577A', 'CO7090247A1', 'US20140311015A1', 'CA2834034C', 'WO2016004472A1', 'WO2016015043A1', 'BR112017009830B1', 'WO2016094066A1', 'WO2016115539A1', 'HUE055720T2', 'WO2016128964A1', 'US10506804B2', 'ES2615165B1', 'TWI577282B', 'WO2018013574A1', 'CN109475117A', 'CN106710262A', 'MX2019009685A', 'US20170290323A1', 'CN109662070A', 'WO2020122875A1', 'US11877573B2', 'US12044000B2', 'IT202100017744A1', 'USD990613S1', 'US20230123062A1', 'USD998091S1', 'WO2023129620A1', 'USD971374S1', 'TWI842488B', 'USD1033587S1']","['US988977A', 'US983977A', 'CH172982A', 'US2569833A', 'US3120075A', 'JPS5710842B2', 'US4086720A', 'US4608774A', 'US4718193A', 'US4813174A', 'US4802303A', 'MX9201588A', 'US6192621B1', 'US5561936A', 'US5749168A', 'US5896697A', 'US5987810A', 'US5983557A', 'US5986557A', 'US6112452A', 'US6158165A', 'US6524605B1', 'EP1257171A2', 'US6532695B1', 'US6401384B1', 'US6543180B2', 'US7100324B2', 'US6662489B2', 'US6718687B2', 'US7082712B2', 'US7913449B2', 'US6920716B2', 'US6637149B1', 'DE10259651A1', 'US20040128903A1', 'US20040159040A1', 'US6910298B2', 'SI1659861T1', 'US6898896B1', 'US7281351B2', 'US7222453B2', 'US20050274061A1', 'USD515175S1', 'TWM281425U', 'US20060137240A1', 'US20060242891A1', 'US20060248782A1', 'US7093389B1', 'CN2904651Y', 'GB0612788D0', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y', 'US8205378B2', 'US7856753B2', 'WO2011094600A1', 'WO2011094581A1']","['WO2011094581A1', 'ES2367388B1', 'GB2507210B', 'US9155293B2', 'AU2013249080B2', 'CN103098781A', 'US9775335B2', 'MX2015012577A', 'CO7090247A1', 'US20140311015A1', 'CA2834034C', 'WO2016004472A1', 'WO2016015043A1', 'BR112017009830B1', 'WO2016094066A1', 'WO2016115539A1', 'HUE055720T2', 'WO2016128964A1', 'US10506804B2', 'ES2615165B1', 'TWI577282B', 'WO2018013574A1', 'CN109475117A', 'CN106710262A', 'MX2019009685A', 'US20170290323A1', 'CN109662070A', 'WO2020122875A1', 'US11877573B2', 'US12044000B2', 'IT202100017744A1', 'USD990613S1', 'US20230123062A1', 'USD998091S1', 'WO2023129620A1', 'USD971374S1', 'TWI842488B', 'USD1033587S1', 'US988977A', 'US983977A', 'CH172982A', 'US2569833A', 'US3120075A', 'JPS5710842B2', 'US4086720A', 'US4608774A', 'US4718193A', 'US4813174A', 'US4802303A', 'MX9201588A', 'US6192621B1', 'US5561936A', 'US5749168A', 'US5896697A', 'US5987810A', 'US5983557A', 'US5986557A', 'US6112452A', 'US6158165A', 'US6524605B1', 'EP1257171A2', 'US6532695B1', 'US6401384B1', 'US6543180B2', 'US7100324B2', 'US6662489B2', 'US6718687B2', 'US7082712B2', 'US7913449B2', 'US6920716B2', 'US6637149B1', 'DE10259651A1', 'US20040128903A1', 'US20040159040A1', 'US6910298B2', 'SI1659861T1', 'US6898896B1', 'US7281351B2', 'US7222453B2', 'US20050274061A1', 'USD515175S1', 'TWM281425U', 'US20060137240A1', 'US20060242891A1', 'US20060248782A1', 'US7093389B1', 'CN2904651Y', 'GB0612788D0', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y', 'US8205378B2', 'US7856753B2', 'WO2011094600A1', 'WO2011094581A1']","['CN103098781A', 'BR112017009830B1', 'CN109475117A', 'CN106710262A', 'CN109662070A']","['CN2904651Y', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y']","['CN103098781A', 'BR112017009830B1', 'CN109475117A', 'CN106710262A', 'CN109662070A', 'CN2904651Y', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y']"
+IN2011KN04771A,Patent IN2011KN04771A ,IN,2015-07-10,"A method, a device, and a system for remotely acquiring user physiological detection data are provided according to embodiments of the present invention. The method includes: receiving detection related information sent by handheld equipment, in which the detection related information includes user identity (ID) information and equipment positioning information; sending a detection start instruction to corresponding medical detection equipment according to the equipment positioning information; receiving user physiological detection data sent by the medical detection equipment, in which the user physiological detection data is associated with an equipment ID of the medical detection equipment; and binding and sending the user physiological detection data and the associated user ID information according to associative information of the user ID information and the equipment ID of the medical detection equipment.",G16H10/60,"ICT specially adapted for the handling or processing of patient-related medical or healthcare data for patient-specific data, e.g. for electronic patient records",,,Zhongqing; Xu,"['CN101926675B', 'DK177299B1', 'EP2754064A4', 'US9213928B2', 'US9218455B2', 'CN103181766B', 'CN103596126A', 'US10424031B2', 'CN107832615A', 'JP5764605B2', 'CN103632230A', 'CN104282128B', 'TW201601110A', 'TWI511073B', 'CN104202320A', 'US9594873B2', 'US9633497B2', 'CN104599211B', 'CN106859593A', 'CN106326682A', 'CN107678293A', 'US10827941B2', 'US11177026B2', 'CN108847274B', 'CN108814561A', 'WO2020043931A1', 'CN113238696B', 'CN109754878B', 'CN109616204A', 'CN110087205B', 'CN110558966A', 'CN112837792A', 'CN113223695A', 'CN112562865B', 'CN113905029B', 'CN118633128A']","['GB8726933D0', 'US5944659A', 'US6198394B1', 'EP1151417A1', 'US6406426B1', 'FR2803153B1', 'US20020032593A1', 'AU2001260669A1', 'US6659947B1', 'WO2002082348A2', 'EP1523724A2', 'CN1323538C', 'US7301451B2', 'US20050234307A1', 'US7962544B2', 'JP5009790B2', 'US8058986B2', 'US9143502B2', 'DE102005023025A1', 'US7853457B2', 'JP5148857B2', 'US20070105531A1', 'US20070180047A1', 'JP2009520282A', 'EP2330771B1', 'JP2010519787A', 'CN101557549A', 'US7912737B2', 'US8808178B2', 'DE102008040502A1', 'JP5906187B2', 'CN101926675B']","['CN101926675B', 'DK177299B1', 'EP2754064A4', 'US9213928B2', 'US9218455B2', 'CN103181766B', 'CN103596126A', 'US10424031B2', 'CN107832615A', 'JP5764605B2', 'CN103632230A', 'CN104282128B', 'TW201601110A', 'TWI511073B', 'CN104202320A', 'US9594873B2', 'US9633497B2', 'CN104599211B', 'CN106859593A', 'CN106326682A', 'CN107678293A', 'US10827941B2', 'US11177026B2', 'CN108847274B', 'CN108814561A', 'WO2020043931A1', 'CN113238696B', 'CN109754878B', 'CN109616204A', 'CN110087205B', 'CN110558966A', 'CN112837792A', 'CN113223695A', 'CN112562865B', 'CN113905029B', 'CN118633128A', 'GB8726933D0', 'US5944659A', 'US6198394B1', 'EP1151417A1', 'US6406426B1', 'FR2803153B1', 'US20020032593A1', 'AU2001260669A1', 'US6659947B1', 'WO2002082348A2', 'EP1523724A2', 'CN1323538C', 'US7301451B2', 'US20050234307A1', 'US7962544B2', 'JP5009790B2', 'US8058986B2', 'US9143502B2', 'DE102005023025A1', 'US7853457B2', 'JP5148857B2', 'US20070105531A1', 'US20070180047A1', 'JP2009520282A', 'EP2330771B1', 'JP2010519787A', 'CN101557549A', 'US7912737B2', 'US8808178B2', 'DE102008040502A1', 'JP5906187B2', 'CN101926675B']","['CN101926675B', 'CN103181766B', 'CN103596126A', 'CN107832615A', 'CN103632230A', 'CN104282128B', 'CN104202320A', 'CN104599211B', 'CN106859593A', 'CN106326682A', 'CN107678293A', 'CN108847274B', 'CN108814561A', 'CN113238696B', 'CN109754878B', 'CN109616204A', 'CN110087205B', 'CN110558966A', 'CN112837792A', 'CN113223695A', 'CN112562865B', 'CN113905029B', 'CN118633128A']","['CN1323538C', 'CN101557549A', 'CN101926675B']","['CN101926675B', 'CN103181766B', 'CN103596126A', 'CN107832615A', 'CN103632230A', 'CN104282128B', 'CN104202320A', 'CN104599211B', 'CN106859593A', 'CN106326682A', 'CN107678293A', 'CN108847274B', 'CN108814561A', 'CN113238696B', 'CN109754878B', 'CN109616204A', 'CN110087205B', 'CN110558966A', 'CN112837792A', 'CN113223695A', 'CN112562865B', 'CN113905029B', 'CN118633128A', 'CN1323538C', 'CN101557549A', 'CN101926675B']"
+IN2014DN05737A,Patent IN2014DN05737A ,IN,2015-04-10,A smartcard system comprising a smartcard (20) on which is stored cash defined by one or more values including an offline limit value and a secured value a server (2) on which a user can create an account and a recorded value is stored and one or more transaction terminals (4 6 8 10 12) which reduce the offline limit value of the smartcard (20) and communicates (24) the same to the server (2) when the smartcard (20) is used for a transaction wherein the server (2) sends an instruction (26 28 30) to the transaction terminals (6 8 10) to decrease the secured value by the transaction amount and increase the offline limit value on the smartcard by said amount when the smartcard (20) is next used (32) for a transaction.,G06Q20/28,"Pre-payment schemes, e.g. ""pay before""",,,Eng Sia Lee,"['US8959034B2', 'US9020858B2', 'US10192214B2', 'US9237151B2', 'CN104680367B', 'US20160371716A1', 'GB2542572A', 'FR3068555B1']","['DE10148468A1', 'US20070168260A1', 'US20090069049A1']","['US8959034B2', 'US9020858B2', 'US10192214B2', 'US9237151B2', 'CN104680367B', 'US20160371716A1', 'GB2542572A', 'FR3068555B1', 'DE10148468A1', 'US20070168260A1', 'US20090069049A1']",['CN104680367B'],[],['CN104680367B']
+IN2014CN04618A,Patent IN2014CN04618A ,IN,2015-09-18,An AC rotary electrical machine and control device that controls an AC rotary machine is equipped with a plurality of sets of windings and comprises: a plurality of inverters having in each phase a switching element that controls the voltage applied to each phase of the aforementioned winding; current control means that controls the current flowing to the winding and that supplies a voltage instruction value corresponding to the aforementioned voltage to the aforementioned inverters; and fault detection means that detects malfunction representing at least either short circuiting or open circuiting of the aforementioned switching elements. The current control means sets the same potential side of each phase of the malfunctioning inverter to the same condition as the fault in accordance with the fault detected by the fault detection means but continues to perform control of the inverter on the normal side i.e. the side which is not malfunctioning.,H02P6/12,Monitoring commutation; Providing indication of commutation failure,,,Akira Furukawa,"['JP6220696B2', 'EP3110001B1', 'CN106233613B', 'JP6287756B2', 'CN104270012B', 'US10351002B2', 'CN107210697B', 'JP6358104B2', 'JP6344255B2', 'DE102015213304A1', 'CN104953912B', 'JP6443245B2', 'GB201513200D0', 'US10071763B2', 'JP6679861B2', 'EP3351456B1', 'JP6365502B2', 'JP2017100210A', 'CN108370226A', 'EP3431366B1', 'DE102016211698A1', 'JP6636184B2', 'GB2563028B', 'CN111108681B', 'JP6848832B2', 'JP2019193445A', 'DE102018124906A1', 'JP7235588B2', 'JP7090680B2', 'FR3130474B1']","['JP4513395B2', 'WO2008129658A1', 'JP4609474B2', 'JP4240149B1', 'JP2011045212A', 'JP4831503B2', 'JP5083305B2', 'WO2013111327A1']","['JP6220696B2', 'EP3110001B1', 'CN106233613B', 'JP6287756B2', 'CN104270012B', 'US10351002B2', 'CN107210697B', 'JP6358104B2', 'JP6344255B2', 'DE102015213304A1', 'CN104953912B', 'JP6443245B2', 'GB201513200D0', 'US10071763B2', 'JP6679861B2', 'EP3351456B1', 'JP6365502B2', 'JP2017100210A', 'CN108370226A', 'EP3431366B1', 'DE102016211698A1', 'JP6636184B2', 'GB2563028B', 'CN111108681B', 'JP6848832B2', 'JP2019193445A', 'DE102018124906A1', 'JP7235588B2', 'JP7090680B2', 'FR3130474B1', 'JP4513395B2', 'WO2008129658A1', 'JP4609474B2', 'JP4240149B1', 'JP2011045212A', 'JP4831503B2', 'JP5083305B2', 'WO2013111327A1']","['CN106233613B', 'CN104270012B', 'CN107210697B', 'CN104953912B', 'CN108370226A', 'CN111108681B']",[],"['CN106233613B', 'CN104270012B', 'CN107210697B', 'CN104953912B', 'CN108370226A', 'CN111108681B']"
+IN2014CN01092A,Patent IN2014CN01092A ,IN,2015-04-10,Various methods and apparatus are directed to collision detection and/or avoidance regarding peer to peer connection identifiers. A wireless communications device broadcasts a signal indicating its acquired connection identifier in one of two alternative blocks. A base station monitors peer to peer signaling in its coverage area and tracks the usage of peer to peer connection identifiers by pairs of devices. The base station detects when multiple pairs of devices are using the same peer to peer connection identifier. The base station provides assistance to the peer to peer network to avoid a collision or facilitate rapid collision detection by the peer to peer devices. In one approach the base station sends an instruction for a connection to switch its connection identifier. In another approach the base station sends a connection a message to bias its selection as to which of the two alternative blocks to use for transmission.,H04W74/0858,"Random access procedures, e.g. with 4-step access with collision treatment collision detection",,,Shailesh Patil,"['US8743823B2', 'US8787280B2', 'KR102006179B1', 'US8953478B2', 'JPWO2013125177A1', 'US9526122B2', 'CN103748943A', 'KR20140059423A', 'US11210076B2', 'JP2015019177A', 'JP6211698B2', 'US9326122B2', 'US9762306B2', 'US10225611B2', 'US9883231B2', 'KR101918830B1', 'TWI683557B', 'EP3100565B1', 'CN110769496B', 'JP6201039B2', 'CN105848086B', 'EP3354108B1', 'US10820356B2', 'CN109479314B', 'JP2018057032A', 'US11184833B2']","['US6128659A', 'GB9828222D0', 'US7414982B2', 'CN1930804B', 'RU2341913C2', 'CN1973459A', 'JP4494134B2', 'CN101305632B', 'US7639709B1', 'KR101216751B1', 'US8027249B2', 'US7876786B2', 'US8879573B2', 'US8005091B2', 'US20120124231A9', 'US8494007B2', 'US8570972B2', 'KR101466393B1', 'US20090168722A1', 'KR101456563B1', 'US9900779B2', 'KR101482201B1', 'US8787280B2']","['US8743823B2', 'US8787280B2', 'KR102006179B1', 'US8953478B2', 'JPWO2013125177A1', 'US9526122B2', 'CN103748943A', 'KR20140059423A', 'US11210076B2', 'JP2015019177A', 'JP6211698B2', 'US9326122B2', 'US9762306B2', 'US10225611B2', 'US9883231B2', 'KR101918830B1', 'TWI683557B', 'EP3100565B1', 'CN110769496B', 'JP6201039B2', 'CN105848086B', 'EP3354108B1', 'US10820356B2', 'CN109479314B', 'JP2018057032A', 'US11184833B2', 'US6128659A', 'GB9828222D0', 'US7414982B2', 'CN1930804B', 'RU2341913C2', 'CN1973459A', 'JP4494134B2', 'CN101305632B', 'US7639709B1', 'KR101216751B1', 'US8027249B2', 'US7876786B2', 'US8879573B2', 'US8005091B2', 'US20120124231A9', 'US8494007B2', 'US8570972B2', 'KR101466393B1', 'US20090168722A1', 'KR101456563B1', 'US9900779B2', 'KR101482201B1', 'US8787280B2']","['CN103748943A', 'CN110769496B', 'CN105848086B', 'CN109479314B']","['CN1930804B', 'RU2341913C2', 'CN1973459A', 'CN101305632B']","['CN103748943A', 'CN110769496B', 'CN105848086B', 'CN109479314B', 'CN1930804B', 'RU2341913C2', 'CN1973459A', 'CN101305632B']"
+IN2015DN03201A,Patent IN2015DN03201A ,IN,2015-10-02,"One embodiment of the invention is directed to a method comprising receiving instruction data relating to a sample in a sample container. The method includes generating, by at least one processor using a workflow management layer, a process plan for the sample, and providing the process plan to a process control layer. The process plan comprises a plurality of possible routes. The method also comprises selecting, by the at least one processor using the process control layer, an optimized route within the plurality of possiblej routes in the process plan, and providing the optimized route to a middleware control layer. The at least one processor and J middleware control layer are operable to cause a transport system to proceed along the selected route.",G01N1/28,"Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q",,,Michael Eberhardt,"['EP2917729B1', 'US9367974B1', 'CN106415549B', 'CN107148626B', 'US20170300641A1', 'GB2554334A', 'EP3299794A1', 'CN106874656B', 'EP3451253A1', 'GB2567487A', 'CN108388246A', 'EP3537159B1', 'EP3618072A1', 'US20220057418A1', 'WO2020163137A1', 'CN110146717A', 'US11656903B2', 'US20210174942A1', 'CN113125782A', 'CN112734189A', 'EP4040442A1', 'CN114139852A', 'WO2023138863A1']","['GB8822739D0', 'US5737498A', 'DE59701238D1', 'FR2764703B1', 'US6546364B1', 'US6581012B1', 'US7937655B2', 'EP1248170B1', 'US6871108B2', 'US20040103073A1', 'US7850912B2', 'JP4554897B2', 'US7860727B2', 'US20080235055A1', 'ES2301956T3', 'US20070254277A1', 'US20080113440A1', 'ITMI20072254A1', 'JP5481122B2', 'EP2554999B1', 'JP5432816B2', 'CN103543282A', 'EP2450711A1', 'US9116746B2', 'EP2660608B1', 'BR112014011035A2', 'BR112014010955A2', 'US20120324454A1', 'CA2887638C', 'EP2917729B1', 'CN106415549B']","['EP2917729B1', 'US9367974B1', 'CN106415549B', 'CN107148626B', 'US20170300641A1', 'GB2554334A', 'EP3299794A1', 'CN106874656B', 'EP3451253A1', 'GB2567487A', 'CN108388246A', 'EP3537159B1', 'EP3618072A1', 'US20220057418A1', 'WO2020163137A1', 'CN110146717A', 'US11656903B2', 'US20210174942A1', 'CN113125782A', 'CN112734189A', 'EP4040442A1', 'CN114139852A', 'WO2023138863A1', 'GB8822739D0', 'US5737498A', 'DE59701238D1', 'FR2764703B1', 'US6546364B1', 'US6581012B1', 'US7937655B2', 'EP1248170B1', 'US6871108B2', 'US20040103073A1', 'US7850912B2', 'JP4554897B2', 'US7860727B2', 'US20080235055A1', 'ES2301956T3', 'US20070254277A1', 'US20080113440A1', 'ITMI20072254A1', 'JP5481122B2', 'EP2554999B1', 'JP5432816B2', 'CN103543282A', 'EP2450711A1', 'US9116746B2', 'EP2660608B1', 'BR112014011035A2', 'BR112014010955A2', 'US20120324454A1', 'CA2887638C', 'EP2917729B1', 'CN106415549B']","['CN106415549B', 'CN107148626B', 'CN106874656B', 'CN108388246A', 'CN110146717A', 'CN113125782A', 'CN112734189A', 'CN114139852A']","['CN103543282A', 'BR112014011035A2', 'BR112014010955A2', 'CN106415549B']","['CN106415549B', 'CN107148626B', 'CN106874656B', 'CN108388246A', 'CN110146717A', 'CN113125782A', 'CN112734189A', 'CN114139852A', 'CN103543282A', 'BR112014011035A2', 'BR112014010955A2', 'CN106415549B']"
+IN2014DN07702A,Patent IN2014DN07702A ,IN,2015-05-15,"A fixation device includes a member (26) a woven material (90, 112) attached to the member and suture (118) extending through the woven material and including free regions for securing the woven material to a tissue graft. A method of securing a tissue graft includes providing a fixation member having a woven material attached thereto and suture extending through the woven material; determining a desired distance between the fixation member and a tissue graft; and attaching the woven material to the tissue graft using the suture at a position to obtain the desired distance.",A61F2/0811,Fixation devices for tendons or ligaments,,,Christopher D Harner,"['US8911474B2', 'CA2713309C', 'US9445803B2', 'US8821494B2', 'US9402620B2', 'US9974643B2', 'US10052094B2', 'US9463013B2', 'US10292694B2', 'US9757113B2', 'US10405968B2', 'US10610211B2', 'US9986992B2', 'US10568616B2', 'EP3383281B1', 'EP3503815B1', 'US10433993B2', 'USD902405S1', 'US11291438B2', 'IT201900007665A1', 'USD1022200S1', 'CN117796865B']","['GB8525565D0', 'FR2638349B1', 'US5306301A', 'US5451203A', 'GB9510637D0', 'FR2745710B1', 'ES2252800T3', 'AUPO530997A0', 'US20020165611A1', 'US6203572B1', 'US6746483B1', 'US6533802B2', 'WO2006108114A2', 'US8298284B2', 'US9017380B2', 'US8852250B2', 'US20080009900A1', 'US8529610B2', 'US8460350B2', 'CN201542777U', 'US9757132B2', 'US8926661B2']","['US8911474B2', 'CA2713309C', 'US9445803B2', 'US8821494B2', 'US9402620B2', 'US9974643B2', 'US10052094B2', 'US9463013B2', 'US10292694B2', 'US9757113B2', 'US10405968B2', 'US10610211B2', 'US9986992B2', 'US10568616B2', 'EP3383281B1', 'EP3503815B1', 'US10433993B2', 'USD902405S1', 'US11291438B2', 'IT201900007665A1', 'USD1022200S1', 'CN117796865B', 'GB8525565D0', 'FR2638349B1', 'US5306301A', 'US5451203A', 'GB9510637D0', 'FR2745710B1', 'ES2252800T3', 'AUPO530997A0', 'US20020165611A1', 'US6203572B1', 'US6746483B1', 'US6533802B2', 'WO2006108114A2', 'US8298284B2', 'US9017380B2', 'US8852250B2', 'US20080009900A1', 'US8529610B2', 'US8460350B2', 'CN201542777U', 'US9757132B2', 'US8926661B2']",['CN117796865B'],['CN201542777U'],"['CN117796865B', 'CN201542777U']"
+IN2014DN11078A,Patent IN2014DN11078A ,IN,2015-09-25,The present application discloses benzathine and related compounds and their use as FBXO 3 inhibitors.,A61K31/506,"Pyrimidines; Hydrogenated pyrimidines, e.g. trimethoprim not condensed and containing further heterocyclic rings",,,Beibel Chen,"['KR102179006B1', 'WO2015089087A1', 'AU2015360482B2', 'EA034912B1', 'AU2016281656B2', 'WO2018100159A1', 'CN113663071B', 'CN114805637B']","['DE2438288A1', 'US4675189A', 'JPS60100516A', 'CA1236641A', 'JP2551756B2', 'US20030013772A1', 'US6221914B1', 'JP2000143665A', 'JP2001127869A', 'US6867299B2', 'HUP0400494A3', 'JP2001278869A', 'AU2003218729A1', 'US20040033986A1', 'US7456222B2', 'SE0302811D0', 'EP2465855A1', 'WO2008142623A2', 'KR102179006B1', 'WO2015089087A1', 'AU2015360482B2']","['KR102179006B1', 'WO2015089087A1', 'AU2015360482B2', 'EA034912B1', 'AU2016281656B2', 'WO2018100159A1', 'CN113663071B', 'CN114805637B', 'DE2438288A1', 'US4675189A', 'JPS60100516A', 'CA1236641A', 'JP2551756B2', 'US20030013772A1', 'US6221914B1', 'JP2000143665A', 'JP2001127869A', 'US6867299B2', 'HUP0400494A3', 'JP2001278869A', 'AU2003218729A1', 'US20040033986A1', 'US7456222B2', 'SE0302811D0', 'EP2465855A1', 'WO2008142623A2', 'KR102179006B1', 'WO2015089087A1', 'AU2015360482B2']","['CN113663071B', 'CN114805637B']",[],"['CN113663071B', 'CN114805637B']"
+IN2014MN02274A,Patent IN2014MN02274A ,IN,2015-08-07,Specific binding members particularly human antibodies particularly recombinant antibodies and fragments thereof which are capable of binding to and recognizing neurons in the CNS and eliciting responses in CNS neurons are provided. The antibodies are useful in the diagnosis and treatment of conditions associated with nerve damage injury or degeneration and neurodegenerative disease and in particular in the treatment or alleviation of stroke or cerebral ischemia. The antibodies variable regions or CDR domain sequences. thereof and fragments thereof of the invention may also be used in therapy in combination with chemotherapeutics immune modulators or neuroactive agents and/or with other antibodies or fragments thereof. The antibodies or active fragments thereof may be used in therapy for stroke or cerebral ischemia alone or in combination with thrombolytics such as TPA. Antibodies are exemplified by the antibodies lgM12 and lgM42 whose sequences are provided herein.,C07K16/18,"Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans",,,Moses Rodriguez,"['US20060099203A1', 'KR20230155600A', 'US11180543B2', 'ES2874558T3', 'AU2016329197B2', 'CN113035298B', 'CN113444787A', 'CN114276418B']","['GB8308235D0', 'US4816567A', 'US5776093A', 'GB9015198D0', 'CA2150262C', 'US7473423B2', 'US6306393B1', 'EP2287191B1', 'CA2525917C', 'TW200510532A', 'PL1768999T3', 'WO2006029184A2', 'EP2007899B1', 'US8796429B2', 'US10202430B2', 'KR20110011676A', 'US9228023B2', 'CA2815046C', 'US11180543B2']","['US20060099203A1', 'KR20230155600A', 'US11180543B2', 'ES2874558T3', 'AU2016329197B2', 'CN113035298B', 'CN113444787A', 'CN114276418B', 'GB8308235D0', 'US4816567A', 'US5776093A', 'GB9015198D0', 'CA2150262C', 'US7473423B2', 'US6306393B1', 'EP2287191B1', 'CA2525917C', 'TW200510532A', 'PL1768999T3', 'WO2006029184A2', 'EP2007899B1', 'US8796429B2', 'US10202430B2', 'KR20110011676A', 'US9228023B2', 'CA2815046C', 'US11180543B2']","['CN113035298B', 'CN113444787A', 'CN114276418B']",[],"['CN113035298B', 'CN113444787A', 'CN114276418B']"
+IN2014CH00978A,Patent IN2014CH00978A ,IN,2015-05-08,"Robust system call and system return instructions are executed by a processor to transfer control between a requester and an operating system kernel. The processor includes execution circuitry and registers that store pointers to data structures in memory. The execution circuitry receives a system call instruction from a requester to transfer control from a first privilege level of the requester to a second privilege level of an operating system kernel. In response, the execution circuitry swaps the data structures that are pointed to by the registers between the requester and the operating system kernel in one atomic transition.",G06F9/30101,Special purpose registers,,,V Patel Baiju,"['JP6370098B2', 'US10528345B2', 'US10761877B2', 'CN108958798B', 'US11366663B2', 'US20200409711A1', 'CN111679857B', 'US12008372B2']","['JPS62286155A', 'JPH03163630A', 'US6901505B2', 'US20030226014A1', 'US8607235B2', 'CN100470571C', 'CN200941211Y', 'JP2008102847A', 'US8578483B2', 'US8312468B2', 'US9063825B1']","['JP6370098B2', 'US10528345B2', 'US10761877B2', 'CN108958798B', 'US11366663B2', 'US20200409711A1', 'CN111679857B', 'US12008372B2', 'JPS62286155A', 'JPH03163630A', 'US6901505B2', 'US20030226014A1', 'US8607235B2', 'CN100470571C', 'CN200941211Y', 'JP2008102847A', 'US8578483B2', 'US8312468B2', 'US9063825B1']","['CN108958798B', 'CN111679857B']","['CN100470571C', 'CN200941211Y']","['CN108958798B', 'CN111679857B', 'CN100470571C', 'CN200941211Y']"
+IN2013CH04831A,Patent IN2013CH04831A ,IN,2015-08-07,"Technologies are generally described for methods and systems effective to execute a program in a multi-core processor. In an example, methods to execute a program in a multi-core processor may include executing a first procedure on a first core of a multi-core processor. The methods may further include while executing the first procedure, sending a first and second instruction, from the first core to a second and third core, respectively. The instructions may command the cores to execute second and third procedures. The methods may further include executing the first procedure on the first core while executing the second procedure on the second core and executing the third procedure on the third core.",G06F9/5088,Techniques for rebalancing the load in a distributed system involving task migration,,,Vajapeyam Sriram,"['EP3673368A1', 'US11030000B2', 'US11182208B2', 'US11016766B2', 'US10983796B2', 'US11321144B2', 'US10929129B2', 'US11372711B2', 'US11416431B2']","['US5655096A', 'US6665793B1', 'US6826681B2', 'US6804632B2', 'EP1387277B1', 'US7055060B2', 'US7769962B2', 'US7827541B2', 'US20070245120A1', 'US7512745B2', 'US7543184B2', 'US7779230B2', 'US8291381B2', 'DE102008005124A1', 'US9189282B2', 'EP2441005A2', 'US9015689B2']","['EP3673368A1', 'US11030000B2', 'US11182208B2', 'US11016766B2', 'US10983796B2', 'US11321144B2', 'US10929129B2', 'US11372711B2', 'US11416431B2', 'US5655096A', 'US6665793B1', 'US6826681B2', 'US6804632B2', 'EP1387277B1', 'US7055060B2', 'US7769962B2', 'US7827541B2', 'US20070245120A1', 'US7512745B2', 'US7543184B2', 'US7779230B2', 'US8291381B2', 'DE102008005124A1', 'US9189282B2', 'EP2441005A2', 'US9015689B2']",[],[],[]
+IN2013MU03246A,Patent IN2013MU03246A ,IN,2015-07-10,"An encoder (10) encodes data (20, D1) to generate corresponding encoded data (70, E2). The encoder (10) includes an analysis unit (100) for analysing one or more portions (40) of the data (20, D1) to be encoded, and for directing the one or more portions (40) to appropriate one or more encoding units (110), wherein the one or more encoding units (110) are operable to encode the one or more portions (40) thereat to generate the encoded data (70, E2). The one or more encoding units (110) are operable to employ mutually different encoding algorithms when encoding the one or more portions (40). At least one encoding unit (110(i)) of the one or more encoding units (110) is operable to compute data values present in each portion (40) received thereat, to sub-divide the data values into at least two sets, to compute at least one aggregate value for a given set derived from the data values present in the given set. Whilst retaining a spatial mask (320) of the portion (40), the spatial mask (320) and information representative of the aggregate values computed for the at least two data sets is included in the encoded data (70, E2). A corresponding decoder (25) for decoding data (70) generated by the encoder (10) executes an inverse of encoding steps employed in the encoder (10). The encoder (10) and/or the decoder (25) are beneficially implemented using dedicated electronic hardware, for example a custom digital integrated circuit, a field-programmable gate array (FPGA) or similar. Alternatively, or additionally, the encoder (10) and/or the decoder (25) can be implemented by executing one or more software products, stored on non-transitory machine-readable data storage media, on computing hardware coupled in data communication with data memory. Optionally, the computing hardware is implemented as a high-speed reduced-instruction-set (RISC) processor. FIG. 2A for the Abstract.",H04N19/94,Vector quantisation,,,Mikael Kalevo Ossi,"['GB2528460B', 'WO2016132430A1', 'KR102477264B1', 'WO2017058100A1', 'US10395356B2', 'US10559093B2', 'CN109768959B', 'CN109788293A', 'CN117714685A', 'CN111858391A']","['US5544286A', 'EP0729688A1', 'DE4421657A1', 'JPH1051642A', 'JPH11164150A', 'US6816618B1', 'US6151409A', 'SE521021C2', 'US6567559B1', 'US7058218B1', 'EP1170956A3', 'US7206453B2', 'US7027647B2', 'US7606429B2', 'US7505624B2', 'JP4182442B2', 'JP2007312126A', 'CN101150719B', 'JP2008283394A', 'CN100542298C', 'CN101615986A', 'CN101420614B', 'RU2420021C2', 'FI127117B', 'CN101668160B', 'CN101848224B']","['GB2528460B', 'WO2016132430A1', 'KR102477264B1', 'WO2017058100A1', 'US10395356B2', 'US10559093B2', 'CN109768959B', 'CN109788293A', 'CN117714685A', 'CN111858391A', 'US5544286A', 'EP0729688A1', 'DE4421657A1', 'JPH1051642A', 'JPH11164150A', 'US6816618B1', 'US6151409A', 'SE521021C2', 'US6567559B1', 'US7058218B1', 'EP1170956A3', 'US7206453B2', 'US7027647B2', 'US7606429B2', 'US7505624B2', 'JP4182442B2', 'JP2007312126A', 'CN101150719B', 'JP2008283394A', 'CN100542298C', 'CN101615986A', 'CN101420614B', 'RU2420021C2', 'FI127117B', 'CN101668160B', 'CN101848224B']","['CN109768959B', 'CN109788293A', 'CN117714685A', 'CN111858391A']","['CN101150719B', 'CN100542298C', 'CN101615986A', 'CN101420614B', 'RU2420021C2', 'CN101668160B', 'CN101848224B']","['CN109768959B', 'CN109788293A', 'CN117714685A', 'CN111858391A', 'CN101150719B', 'CN100542298C', 'CN101615986A', 'CN101420614B', 'RU2420021C2', 'CN101668160B', 'CN101848224B']"
+IN2014MN00077A,Patent IN2014MN00077A ,IN,2015-09-25,Method for use when a mobile communication device roams be tween a home network (10) and foreign networks (20 30) which device comprises a SIM card using an IMSI. The method comprises the steps of a) storing on the SIM card a first IMSI for network identification; b)upon receipt of a location update message indicating that the mobile device has moved to a first visited network (20) firstly causing the HLR (12) to send an instruction message to the mobile device to change to a second IMSI the IMSI used for network identification; secondly causing the mobile device to use the second IMSI for network identification and saving the first IMSI; and then causing the mobile device to perform a device network refresh; and c)upon roaming back to the home network causing the mobile device to change the IMSI used for network identification back to the first IMSI and then to update its network status.,H04W4/60,"Subscription-based services using application servers or record carriers, e.g. SIM application toolkits",,,Carl Magnus STENBERG,"['SE537787C2', 'FR3003424A1', 'EP3016420A4', 'MY176731A', 'SE538748C2', 'CN105072679B', 'US10567949B2', 'US10638336B2', 'CN107801178B', 'CN107846677A', 'CN107743303B', 'US11166163B2']","['AU747302B2', 'WO2001076188A2', 'US20070254636A1', 'US6603968B2', 'ATE358957T1', 'US7929953B2', 'US20070281687A1', 'US20080125117A1', 'WO2005081962A2', 'US7289805B2', 'EP2259629B1', 'FI120480B', 'WO2008103446A2', 'US20090215449A1', 'CN101534498B', 'DK2144458T3', 'RU2414100C1', 'GB0916582D0', 'WO2011161490A1', 'GB2491889A']","['SE537787C2', 'FR3003424A1', 'EP3016420A4', 'MY176731A', 'SE538748C2', 'CN105072679B', 'US10567949B2', 'US10638336B2', 'CN107801178B', 'CN107846677A', 'CN107743303B', 'US11166163B2', 'AU747302B2', 'WO2001076188A2', 'US20070254636A1', 'US6603968B2', 'ATE358957T1', 'US7929953B2', 'US20070281687A1', 'US20080125117A1', 'WO2005081962A2', 'US7289805B2', 'EP2259629B1', 'FI120480B', 'WO2008103446A2', 'US20090215449A1', 'CN101534498B', 'DK2144458T3', 'RU2414100C1', 'GB0916582D0', 'WO2011161490A1', 'GB2491889A']","['CN105072679B', 'CN107801178B', 'CN107846677A', 'CN107743303B']","['CN101534498B', 'RU2414100C1']","['CN105072679B', 'CN107801178B', 'CN107846677A', 'CN107743303B', 'CN101534498B', 'RU2414100C1']"
+IN2014CN02488A,Patent IN2014CN02488A ,IN,2015-06-26,Various exemplary embodiments relate to a method and related network node including one or more of the following: determining by the network device that an S9 session should be audited; determining that the S9 session is a suspect session; transmitting an S9 message to a partner device wherein the S9 message includes an innocuous instruction; receiving at the network device a response message from the partner device; determining based on the response message whether the suspect session is orphaned; and if the suspect session is orphaned removing an S9 session record associated with the suspect session.,H04L41/50,"Network service management, e.g. ensuring proper service fulfilment according to agreements",,,Robert A Mann,"['US10333808B2', 'US8539033B2', 'US8903059B2', 'US8745614B2', 'US20130097326A1', 'KR101884048B1', 'CN103731930B', 'KR102112132B1', 'CN105493525B', 'CN104660548B', 'US9537851B2', 'US10439908B2', 'US10110683B2', 'US10028197B1', 'US10104604B2', 'CN109257353B', 'US20220053056A1']","['US5077730A', 'JP3668648B2', 'US7457862B2', 'CN1870647A', 'CN101022454B', 'US7624181B2', 'CN101083541B', 'CN1949774B', 'US20090132712A1', 'JP4984917B2', 'JP5046811B2', 'KR101375734B1', 'CN101646149B', 'CN101583112B', 'CN101677437B', 'CN101959164A', 'EP2481187A1', 'US9015330B2', 'EP2548388A4', 'US20110225230A1', 'US8539033B2']","['US10333808B2', 'US8539033B2', 'US8903059B2', 'US8745614B2', 'US20130097326A1', 'KR101884048B1', 'CN103731930B', 'KR102112132B1', 'CN105493525B', 'CN104660548B', 'US9537851B2', 'US10439908B2', 'US10110683B2', 'US10028197B1', 'US10104604B2', 'CN109257353B', 'US20220053056A1', 'US5077730A', 'JP3668648B2', 'US7457862B2', 'CN1870647A', 'CN101022454B', 'US7624181B2', 'CN101083541B', 'CN1949774B', 'US20090132712A1', 'JP4984917B2', 'JP5046811B2', 'KR101375734B1', 'CN101646149B', 'CN101583112B', 'CN101677437B', 'CN101959164A', 'EP2481187A1', 'US9015330B2', 'EP2548388A4', 'US20110225230A1', 'US8539033B2']","['CN103731930B', 'CN105493525B', 'CN104660548B', 'CN109257353B']","['CN1870647A', 'CN101022454B', 'CN101083541B', 'CN1949774B', 'CN101646149B', 'CN101583112B', 'CN101677437B', 'CN101959164A']","['CN103731930B', 'CN105493525B', 'CN104660548B', 'CN109257353B', 'CN1870647A', 'CN101022454B', 'CN101083541B', 'CN1949774B', 'CN101646149B', 'CN101583112B', 'CN101677437B', 'CN101959164A']"
+IN2014KN02931A,Patent IN2014KN02931A ,IN,2015-05-08,"A payment authorization system includes an account database associating a first user device and a payment account. A system provider device in the payment authorization system is coupled to a network and the account database. The system provider device is operable to receive a payment request from a second user device over the network to make a payment using the payment account. In response to receiving the payment request, the system provider device sends an authorization request to the first user device over the network. In response to receiving an authorization from the first user device over the network, the system provider device sends an instruction over the network to make a payment according to the payment request. The first user device may designate the second user device for using the payment account such that a temporary security code is sent to the second user device over the network.",G06Q20/42,"Confirmation, e.g. check or permission by the legal debtor of payment",,,German Carlos Scipioni,"['US11080701B2', 'US11210648B2', 'CA2830260C', 'SG11201605718PA', 'US10453031B2', 'EP3204903A4', 'AU2016208989B2', 'US11354651B2', 'US11599879B2', 'US11823161B2', 'KR20180055209A', 'US10878420B2', 'US12051068B2', 'DE202021000532U1', 'US20230214814A1', 'US20230359728A1']","['US5326960A', 'US5650604A', 'US5953710A', 'US6163771A', 'US6422462B1', 'US6250557B1', 'US20030212620A1', 'US7308429B1', 'JP2001339764A', 'AU2000270486A1', 'US20020152179A1', 'US7487126B2', 'US20040034568A1', 'US8270578B2', 'US7848765B2', 'US20080293380A1', 'GB2450193A', 'US8606714B1', 'US8381969B1', 'US8718633B2', 'US8682802B1', 'US8782264B2', 'US10255589B1']","['US11080701B2', 'US11210648B2', 'CA2830260C', 'SG11201605718PA', 'US10453031B2', 'EP3204903A4', 'AU2016208989B2', 'US11354651B2', 'US11599879B2', 'US11823161B2', 'KR20180055209A', 'US10878420B2', 'US12051068B2', 'DE202021000532U1', 'US20230214814A1', 'US20230359728A1', 'US5326960A', 'US5650604A', 'US5953710A', 'US6163771A', 'US6422462B1', 'US6250557B1', 'US20030212620A1', 'US7308429B1', 'JP2001339764A', 'AU2000270486A1', 'US20020152179A1', 'US7487126B2', 'US20040034568A1', 'US8270578B2', 'US7848765B2', 'US20080293380A1', 'GB2450193A', 'US8606714B1', 'US8381969B1', 'US8718633B2', 'US8682802B1', 'US8782264B2', 'US10255589B1']",[],[],[]
+IN2014CN03076A,Patent IN2014CN03076A ,IN,2015-07-03,Client devices periodically capture ambient audio waveforms and modify their own device configuration based on the captured audio waveform. In particular embodiments client devices generate waveform fingerprints and upload the fingerprints to a server for analysis. The server compares the waveform fingerprints to a database of stored waveform fingerprints and upon finding a match pushes content or other information to the client device. The fingerprints in the database may be uploaded by other users and compared to the received client waveform fingerprint based on common location or other social factors. Thus a client s location may be enhanced if the location of users whose fingerprints match the client s is known and based upon this enhanced location the server may transmit an instruction to the device to modify its device configuration.,H04W4/16,"Communication-related supplementary services, e.g. call-transfer or call-hold",,,Matthew Nicholas Papakipos,"['EP3276563A1', 'US9992729B2', 'US9679583B2', 'US10140316B1', 'US9520142B2', 'US10114968B2', 'GB201702018D0', 'US10652170B2', 'GB2563674B', 'CN107316019A', 'JP6974048B2', 'WO2020185388A1', 'CN114360495A', 'JP7544370B2', 'US11470162B2']","['US6012027A', 'US6201176B1', 'US7174293B2', 'US7076255B2', 'US7295970B1', 'US7392066B2', 'US7590232B2', 'US8542803B2', 'US7516074B2', 'JP4715455B2', 'JP2007174332A', 'CN101018242A', 'US20080113657A1', 'US7973857B2', 'US8624605B2', 'JP2008271465A', 'US8086398B2', 'US8117193B2', 'US20090186633A1', 'US20090215439A1', 'US8255224B2', 'JP4167716B1', 'US20090300525A1', 'US9253560B2', 'US8977974B2', 'JP5267994B2', 'US8315866B2', 'US8423791B1', 'US8078152B2', 'US20110066700A1', 'US8326624B2', 'US8175617B2', 'US8321394B2', 'US8150844B2', 'US9672496B2']","['EP3276563A1', 'US9992729B2', 'US9679583B2', 'US10140316B1', 'US9520142B2', 'US10114968B2', 'GB201702018D0', 'US10652170B2', 'GB2563674B', 'CN107316019A', 'JP6974048B2', 'WO2020185388A1', 'CN114360495A', 'JP7544370B2', 'US11470162B2', 'US6012027A', 'US6201176B1', 'US7174293B2', 'US7076255B2', 'US7295970B1', 'US7392066B2', 'US7590232B2', 'US8542803B2', 'US7516074B2', 'JP4715455B2', 'JP2007174332A', 'CN101018242A', 'US20080113657A1', 'US7973857B2', 'US8624605B2', 'JP2008271465A', 'US8086398B2', 'US8117193B2', 'US20090186633A1', 'US20090215439A1', 'US8255224B2', 'JP4167716B1', 'US20090300525A1', 'US9253560B2', 'US8977974B2', 'JP5267994B2', 'US8315866B2', 'US8423791B1', 'US8078152B2', 'US20110066700A1', 'US8326624B2', 'US8175617B2', 'US8321394B2', 'US8150844B2', 'US9672496B2']","['CN107316019A', 'CN114360495A']",['CN101018242A'],"['CN107316019A', 'CN114360495A', 'CN101018242A']"
+IN2015DN06420A,Patent IN2015DN06420A ,IN,2015-07-31,A utility vehicle provided with an engine an exhaust gas purification device a reducing agent tank an engine coolant circuit a branched passage a valve a receiving unit and a valve control unit. The exhaust gas purification device purifies the nitrogen oxides in the exhaust gas discharged from the engine. The reducing agent tank stores a reducing agent that is to be supplied to the exhaust gas purification device. The engine coolant circuit includes a water pump that uses the engine to drive the circulation in a circulation passage of the coolant for cooling the engine. The branched passage is provided so as to use the engine coolant to exchange heat with the reducing agent inside the reducing agent tank. The valve controls the supply of engine coolant to the branched passage. The receiving unit receives operational instructions from the operator. The valve control unit instructs the valve to open following an operational instruction from the operator.,E02F9/0866,"Engine compartment, e.g. heat exchangers, exhaust filters, cooling devices, silencers, mufflers, position of hydraulic pumps in the engine compartment",,,Tadashi Mori,"['JP5940107B2', 'USD834064S1', 'JP6297905B2', 'JP6307019B2', 'CN106103854B', 'CN106320420B', 'JP6385323B2', 'DE102016104358B4', 'JP7002251B2', 'JP2019170257A', 'JP7133428B2', 'EP3640069B1', 'JP7201486B2', 'JP2020153115A']","['US5155995A', 'JPH07197485A', 'JP3507303B2', 'KR200302941Y1', 'JP3751962B2', 'EP1669567B1', 'JP3687914B2', 'US7117669B2', 'US6996975B2', 'JP2007032472A', 'DE102006027487A1', 'CN101432161A', 'JP4656039B2', 'US9151201B2', 'US20080202095A1', 'JP2009097479A', 'US8424777B2', 'DE102008012780B4', 'US8359831B2', 'US8122710B2', 'DE102009018070A1', 'EP2443327B1', 'DE102009035940C5', 'US20110030349A1', 'US8241598B2', 'JP5573351B2', 'DE102010024022A1', 'US20120020857A1', 'US8438838B2', 'WO2012053265A1', 'US8822887B2', 'US20130026244A1', 'JP2013181400A', 'JP6261157B2', 'JP5801767B2', 'JP5873399B2', 'US9458746B2', 'US8959903B2', 'KR101490947B1', 'DE112014000013B4', 'KR101665278B1']","['JP5940107B2', 'USD834064S1', 'JP6297905B2', 'JP6307019B2', 'CN106103854B', 'CN106320420B', 'JP6385323B2', 'DE102016104358B4', 'JP7002251B2', 'JP2019170257A', 'JP7133428B2', 'EP3640069B1', 'JP7201486B2', 'JP2020153115A', 'US5155995A', 'JPH07197485A', 'JP3507303B2', 'KR200302941Y1', 'JP3751962B2', 'EP1669567B1', 'JP3687914B2', 'US7117669B2', 'US6996975B2', 'JP2007032472A', 'DE102006027487A1', 'CN101432161A', 'JP4656039B2', 'US9151201B2', 'US20080202095A1', 'JP2009097479A', 'US8424777B2', 'DE102008012780B4', 'US8359831B2', 'US8122710B2', 'DE102009018070A1', 'EP2443327B1', 'DE102009035940C5', 'US20110030349A1', 'US8241598B2', 'JP5573351B2', 'DE102010024022A1', 'US20120020857A1', 'US8438838B2', 'WO2012053265A1', 'US8822887B2', 'US20130026244A1', 'JP2013181400A', 'JP6261157B2', 'JP5801767B2', 'JP5873399B2', 'US9458746B2', 'US8959903B2', 'KR101490947B1', 'DE112014000013B4', 'KR101665278B1']","['CN106103854B', 'CN106320420B']",['CN101432161A'],"['CN106103854B', 'CN106320420B', 'CN101432161A']"
+IN2014DN05695A,Patent IN2014DN05695A ,IN,2015-05-15,Described herein is the generation of optimized H5N1 influenza HA polypeptides for eliciting a broadly reactive immune response to H5N1 influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on human and avian H5N1 isolates. Provided herein are optimized H5N1 HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['US20130028933A1', 'AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2015186721A1', 'WO2016100926A1', 'EP3307761A4', 'IL312520A', 'MX2021005257A', 'WO2020172365A1', 'GB202004825D0', 'CA3234653A1']","['US5662907A', 'DK0772619T4', 'US6239116B1', 'US6429199B1', 'US6207646B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'CN1298845C', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'JP2010501074A', 'US8980281B2', 'EP2450377A1', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1']","['US20130028933A1', 'AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2015186721A1', 'WO2016100926A1', 'EP3307761A4', 'IL312520A', 'MX2021005257A', 'WO2020172365A1', 'GB202004825D0', 'CA3234653A1', 'US5662907A', 'DK0772619T4', 'US6239116B1', 'US6429199B1', 'US6207646B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'CN1298845C', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'JP2010501074A', 'US8980281B2', 'EP2450377A1', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1']",[],['CN1298845C'],['CN1298845C']
+IN2015DN01176A,Patent IN2015DN01176A ,IN,2015-06-26,An electrical control lock device comprises: a safety casing which is provided at least one cover body; a rotating shaft which is connected fixedly with a locked part and drives the locked part outside the casing to rotate is provided in the casing; a locking plate which is perpendicular to said rotating shaft is arranged fixedly on the rotating shaft and said locking plate is provided with a pin control portion; a lock pin which selectively drops into the pin control portion and said lock pin is driven by a power motor to rotate; and a control portion which controls the rotating of the power motor according to a guiding control instruction in order that the lock pin drops into the pin control portion to enable that the locking plate and the locked part are locked and in order that the lock pin leaves from the pin control portion to enable that the locking plate and the locked part are unlocked. The other end of the pin roll which is opposite to the locking plate is connected fixedly with a blocking piece the two ends of the route during which the blocking piece and the pin roll rotate together are respectively provided with a blocking piece detecting sensor and a monitoring device in a covering state is arranged between the cover body and the casing.,E05B47/0012,Operating or controlling locks or other fastening devices by electric or magnetic means with electric actuators; Constructional features thereof with rotary electromotors,,,Sizong Min,"['CN102817505B', 'ITTO20130809A1', 'CN105064808B', 'CN105438684A', 'CN105425763A', 'CN105929773A', 'CN106054010B', 'US11377875B2', 'IT201600096401A1', 'CN107419966B', 'CN113090129B']","['US1611838A', 'US5018375A', 'US5813257A', 'CN1224107A', 'US6032416A', 'DE19841309C2', 'US6330817B1', 'JP4171629B2', 'CN2679306Y', 'KR20060109639A', 'CN101324163B', 'CN201598912U', 'CN101705772B', 'JP2012097503A', 'CN202152572U', 'CN102817505B']","['CN102817505B', 'ITTO20130809A1', 'CN105064808B', 'CN105438684A', 'CN105425763A', 'CN105929773A', 'CN106054010B', 'US11377875B2', 'IT201600096401A1', 'CN107419966B', 'CN113090129B', 'US1611838A', 'US5018375A', 'US5813257A', 'CN1224107A', 'US6032416A', 'DE19841309C2', 'US6330817B1', 'JP4171629B2', 'CN2679306Y', 'KR20060109639A', 'CN101324163B', 'CN201598912U', 'CN101705772B', 'JP2012097503A', 'CN202152572U', 'CN102817505B']","['CN102817505B', 'CN105064808B', 'CN105438684A', 'CN105425763A', 'CN105929773A', 'CN106054010B', 'CN107419966B', 'CN113090129B']","['CN1224107A', 'CN2679306Y', 'CN101324163B', 'CN201598912U', 'CN101705772B', 'CN202152572U', 'CN102817505B']","['CN102817505B', 'CN105064808B', 'CN105438684A', 'CN105425763A', 'CN105929773A', 'CN106054010B', 'CN107419966B', 'CN113090129B', 'CN1224107A', 'CN2679306Y', 'CN101324163B', 'CN201598912U', 'CN101705772B', 'CN202152572U', 'CN102817505B']"
+IN2013MN00102A,Patent IN2013MN00102A ,IN,2015-06-05,Disclosed is a communication method utilizing fingerprint information for authentication. The method comprises the following steps: a fingerprint information exchange stage when a request instruction is received a second user verifies a request and extracts the fingerprint information thereof via a collection and identification device of a fingerprint sensing device the second user stores the fingerprint information thereof to an information exchange platform and performs an exchange with a first user to verify the identities of both parties; an encryption and transmission stage the identity of the first user is authenticated after passing the authentication the first user inputs in an encryption unit information that needs to be transmitted performs encryption via the encryption unit to acquire encrypted information that needs to be transmitted and introduces into a communication application unit the encryption information that needs to be transmitted and forwards same to the second user while the second user receives the encrypted information via the communication application unit; and a decryption and reading stage the identity of the second user is authenticated after passing the authentication the second user performs decryption via a decryption unit.,H04L63/0876,"Network architectures or network communication protocols for network security for authentication of entities based on the identity of the terminal or configuration, e.g. MAC address, hardware or software configuration or device fingerprint",,,Kwok Fong Wong,"['CN103236926B', 'CN103237030A', 'CN103312511B', 'CN103425917A', 'CN103634292B', 'CN103632077A', 'EP3608812A1', 'CN104052654A', 'CN105610770A', 'CN107038359A', 'CN107306258A', 'CN108306896B', 'CN109820335B']","['US5541994A', 'US20010000045A1', 'ES2245305T3', 'JP2003535559A', 'US7689832B2', 'CN2609069Y', 'JP2006524352A', 'FR2862394B1', 'JP4285368B2', 'JP2006121342A', 'CN1819517A', 'CN1859092A', 'US7373843B2', 'US8533485B1', 'TWI296780B', 'JP2007249349A', 'TW200740165A', 'US8615663B2', 'US8976008B2', 'JP4859631B2', 'CN101193015A', 'JP2008234143A', 'JP2008293396A', 'CN101340285A', 'JP5134338B2', 'US8189878B2', 'US8074880B2', 'US9553727B2', 'CN102437913B', 'CN102638459B']","['CN103236926B', 'CN103237030A', 'CN103312511B', 'CN103425917A', 'CN103634292B', 'CN103632077A', 'EP3608812A1', 'CN104052654A', 'CN105610770A', 'CN107038359A', 'CN107306258A', 'CN108306896B', 'CN109820335B', 'US5541994A', 'US20010000045A1', 'ES2245305T3', 'JP2003535559A', 'US7689832B2', 'CN2609069Y', 'JP2006524352A', 'FR2862394B1', 'JP4285368B2', 'JP2006121342A', 'CN1819517A', 'CN1859092A', 'US7373843B2', 'US8533485B1', 'TWI296780B', 'JP2007249349A', 'TW200740165A', 'US8615663B2', 'US8976008B2', 'JP4859631B2', 'CN101193015A', 'JP2008234143A', 'JP2008293396A', 'CN101340285A', 'JP5134338B2', 'US8189878B2', 'US8074880B2', 'US9553727B2', 'CN102437913B', 'CN102638459B']","['CN103236926B', 'CN103237030A', 'CN103312511B', 'CN103425917A', 'CN103634292B', 'CN103632077A', 'CN104052654A', 'CN105610770A', 'CN107038359A', 'CN107306258A', 'CN108306896B', 'CN109820335B']","['CN2609069Y', 'CN1819517A', 'CN1859092A', 'CN101193015A', 'CN101340285A', 'CN102437913B', 'CN102638459B']","['CN103236926B', 'CN103237030A', 'CN103312511B', 'CN103425917A', 'CN103634292B', 'CN103632077A', 'CN104052654A', 'CN105610770A', 'CN107038359A', 'CN107306258A', 'CN108306896B', 'CN109820335B', 'CN2609069Y', 'CN1819517A', 'CN1859092A', 'CN101193015A', 'CN101340285A', 'CN102437913B', 'CN102638459B']"
+IN2014DN05805A,Patent IN2014DN05805A ,IN,2015-05-15,Described herein is the generation of optimized H3N2 H2N2 and B influenza HA polypeptides for eliciting a broadly reactive immune response to influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on H3N2 H2N2 and B influenza isolates. Provided herein are optimized H3N2 H2N2 and B influenza HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2016100926A1', 'WO2016196846A2', 'EP3307761A4', 'US10485864B2', 'US10844097B2', 'IL312520A', 'WO2020014675A1', 'WO2024167855A1']","['US5662907A', 'US6239116B1', 'DK0772619T4', 'US6207646B1', 'US6429199B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'CA2816222A1', 'US8592197B2', 'CA2598884A1', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'EP2522678A1', 'US8980281B2', 'EP2450377A1', 'US8512711B2', 'MX2009013008A', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'WO2011087839A1', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A']","['AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2016100926A1', 'WO2016196846A2', 'EP3307761A4', 'US10485864B2', 'US10844097B2', 'IL312520A', 'WO2020014675A1', 'WO2024167855A1', 'US5662907A', 'US6239116B1', 'DK0772619T4', 'US6207646B1', 'US6429199B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'CA2816222A1', 'US8592197B2', 'CA2598884A1', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'EP2522678A1', 'US8980281B2', 'EP2450377A1', 'US8512711B2', 'MX2009013008A', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'WO2011087839A1', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A']",[],[],[]
+IN2014DN03087A,Patent IN2014DN03087A ,IN,2015-05-15,Processing circuitry is provided to perform an operation FRINT for rounding a floating point value to an integral floating point value. Control circuitry controls the processing circuitry to perform the FRINT operation in response to an FRINT instruction. The processing circuitry includes shifting circuitry for generating a rounding value by shifting a base value adding circuitry for adding the rounding value to the significand of the floating point value to generate a sum value mask generating circuitry for generating a mask for clearing fractional valued bits of the sum value and masking circuitry for applying the mask to the sum value to generate the integral floating point value.,G06F7/49947,Rounding,,,David Raymond Lutz,"['US9916130B2', 'CN105677967B', 'US10310809B2', 'US10606557B2', 'US20180173527A1', 'CN110163360B', 'US10684824B2', 'US11327923B2', 'US11327713B2', 'US11328038B2', 'US11150872B2', 'US11836629B2', 'US11809908B2', 'US11782729B2']","['JPS61213927A', 'JPH0644225B2', 'JP3199371B2', 'JPH04290122A', 'US5257215A', 'US5696709A', 'US5742537A', 'US6148316A', 'US6301594B1', 'JP2000347832A', 'US6243728B1', 'US6490606B1', 'US6965906B1', 'US6879992B2', 'US6889242B1', 'WO2004098066A1', 'US7720898B2', 'US20040254973A1', 'JP4243277B2', 'US7225323B2', 'US7499962B2', 'US7730117B2', 'US7676535B2', 'US8732226B2', 'JP2010102431A', 'US20100262722A1', 'US8386755B2', 'US8407271B2']","['US9916130B2', 'CN105677967B', 'US10310809B2', 'US10606557B2', 'US20180173527A1', 'CN110163360B', 'US10684824B2', 'US11327923B2', 'US11327713B2', 'US11328038B2', 'US11150872B2', 'US11836629B2', 'US11809908B2', 'US11782729B2', 'JPS61213927A', 'JPH0644225B2', 'JP3199371B2', 'JPH04290122A', 'US5257215A', 'US5696709A', 'US5742537A', 'US6148316A', 'US6301594B1', 'JP2000347832A', 'US6243728B1', 'US6490606B1', 'US6965906B1', 'US6879992B2', 'US6889242B1', 'WO2004098066A1', 'US7720898B2', 'US20040254973A1', 'JP4243277B2', 'US7225323B2', 'US7499962B2', 'US7730117B2', 'US7676535B2', 'US8732226B2', 'JP2010102431A', 'US20100262722A1', 'US8386755B2', 'US8407271B2']","['CN105677967B', 'CN110163360B']",[],"['CN105677967B', 'CN110163360B']"
+IN2014DN09236A,Patent IN2014DN09236A ,IN,2015-07-10,"A technique comprising: transmitting from an access node of an access network an instruction to transmit one or more decoding performance reports relating exclusively to a specific type of service, which decoding performance report comprises information about the result of one or more attempts to decode at a communication device one or more transmissions via which said specific type of service is provided.",H04W24/10,Scheduling measurement reports ; Arrangements for measurement reports,,,Yi Zhang,"['WO2014177194A1', 'CA2947953A1', 'US10805217B2', 'CN108702722A', 'WO2017166304A1', 'US10917901B2', 'KR20230038223A', 'CN114071372B']","['KR100548344B1', 'US8687607B2', 'EP1641189B1', 'US7912471B2', 'KR101369135B1', 'US20080070606A1', 'US20080008097A1', 'US8369860B2', 'US7570916B2', 'CN101479997B', 'KR100935035B1', 'EP2028890B1', 'EP2239968A1', 'KR101375936B1', 'US8780798B2', 'US8098590B2', 'US8717982B2', 'US9106375B2', 'CN102215455A', 'US8825794B2', 'CN102457868A', 'US9173192B2', 'CN107580376B', 'US9450773B2', 'US9544805B2']","['WO2014177194A1', 'CA2947953A1', 'US10805217B2', 'CN108702722A', 'WO2017166304A1', 'US10917901B2', 'KR20230038223A', 'CN114071372B', 'KR100548344B1', 'US8687607B2', 'EP1641189B1', 'US7912471B2', 'KR101369135B1', 'US20080070606A1', 'US20080008097A1', 'US8369860B2', 'US7570916B2', 'CN101479997B', 'KR100935035B1', 'EP2028890B1', 'EP2239968A1', 'KR101375936B1', 'US8780798B2', 'US8098590B2', 'US8717982B2', 'US9106375B2', 'CN102215455A', 'US8825794B2', 'CN102457868A', 'US9173192B2', 'CN107580376B', 'US9450773B2', 'US9544805B2']","['CN108702722A', 'CN114071372B']","['CN101479997B', 'CN102215455A', 'CN102457868A', 'CN107580376B']","['CN108702722A', 'CN114071372B', 'CN101479997B', 'CN102215455A', 'CN102457868A', 'CN107580376B']"
+IN2014CN04095A,Patent IN2014CN04095A ,IN,2015-07-10,An auxiliary power source device for a vehicle is provided with a control section (10) and a resonant inverter circuit (1) that converts DC input to a desired AC voltage and delivers this as output. The control section (10) is provided with: a resonance time management section (13) that manages the resonance time of the current flowing in the resonant inverter circuit (1); a gate OFF instruction generating section (12) that based on the detection current of a current detector (CT1) detects overcurrent flowing in the resonant inverter circuit (1) and if such overcurrent is detected generates a gate OFF instruction for turning switching elements (HGU1 HGV2) of the resonant inverter circuit (1) OFF after lapse of the time at which the current flowing in the switching elements (HGU1 HGV2) initially becomes zero based on the detection current of the current detector (CT1) and the resonance time which is managed by the resonance time management section (13); and a gate signal generating section (14) that generates a gate signal that controls turning OFF of the switching elements (HGU1 HGV2) when the gate OFF instruction is input.,H02M7/537,"Conversion of dc power input into ac power output without possibility of reversal by static converters using discharge tubes with control electrode or semiconductor devices with control electrode using devices of a triode or transistor type requiring continuous application of a control signal using semiconductor devices only, e.g. single switched pulse inverters",,,Masato Achihara,"['WO2016139812A1', 'CA2990141C', 'US10298040B2', 'CN111137133B', 'CN114026761A', 'JP7419863B2', 'JP2022121050A', 'US12100943B2']","['US4078247A', 'US4200830A', 'EP0125588B1', 'JP2634043B2', 'JPH0236769A', 'JP2680914B2', 'US5434770A', 'US5835361A', 'JPH11164566A', 'JP3474775B2', 'JP2000037081A', 'JP2005135619A', 'JP4432652B2', 'JP4720514B2', 'JP4869722B2', 'US8451631B2', 'KR101151928B1', 'JP5491075B2', 'JP5494009B2', 'CN102223064B']","['WO2016139812A1', 'CA2990141C', 'US10298040B2', 'CN111137133B', 'CN114026761A', 'JP7419863B2', 'JP2022121050A', 'US12100943B2', 'US4078247A', 'US4200830A', 'EP0125588B1', 'JP2634043B2', 'JPH0236769A', 'JP2680914B2', 'US5434770A', 'US5835361A', 'JPH11164566A', 'JP3474775B2', 'JP2000037081A', 'JP2005135619A', 'JP4432652B2', 'JP4720514B2', 'JP4869722B2', 'US8451631B2', 'KR101151928B1', 'JP5491075B2', 'JP5494009B2', 'CN102223064B']","['CN111137133B', 'CN114026761A']",['CN102223064B'],"['CN111137133B', 'CN114026761A', 'CN102223064B']"
+IN2012DN02105A,Patent IN2012DN02105A ,IN,2015-08-21,"The present teachings disclose various embodiments of a thermal block assembly having low thermal non-uniformity throughout the thermal block assembly. Accordingly, various embodiments of thermal block assemblies having such low thermal non-uniformity provide for desired performance of bioanalysis instrumentation utilizing such thermal block assemblies.",H01L21/4882,Assembly of heatsink parts,,,Janusz Wojtowicz,"['SG184539A1', 'CA2922854A1', 'US10471431B2', 'US11003808B2', 'WO2018132896A1', 'GB201812192D0', 'WO2020150007A1', 'US20220184612A1', 'KR20240056761A']","['US3566959A', 'US3841853A', 'US4602651A', 'US4345837A', 'US5038852A', 'GB8606641D0', 'US4753290A', 'US6703236B2', 'KR100236506B1', 'US5318361A', 'CA2130013C', 'US5525300A', 'US5849208A', 'US6039471A', 'AU736484B2', 'US7133726B1', 'US6301779B1', 'GB9826237D0', 'EP1045038A1', 'US6337435B1', 'US6657169B2', 'US6496373B1', 'TW487298U', 'US6677151B2', 'US6659638B1', 'US6730883B2', 'US7079394B2', 'US20040241048A1', 'US6874566B1', 'US7051536B1', 'US7274571B2', 'US7213636B2', 'ES2401437T3', 'US7472742B2', 'US7251136B2', 'JP2007329253A', 'US7629124B2', 'US8962306B2', 'US20080128118A1', 'WO2008091626A1', 'US9920939B2', 'US20080266806A1', 'US20090139311A1', 'CA2716337C', 'CN201230438Y', 'CN102473696A', 'US20130032323A1', 'FR3062460B1']","['SG184539A1', 'CA2922854A1', 'US10471431B2', 'US11003808B2', 'WO2018132896A1', 'GB201812192D0', 'WO2020150007A1', 'US20220184612A1', 'KR20240056761A', 'US3566959A', 'US3841853A', 'US4602651A', 'US4345837A', 'US5038852A', 'GB8606641D0', 'US4753290A', 'US6703236B2', 'KR100236506B1', 'US5318361A', 'CA2130013C', 'US5525300A', 'US5849208A', 'US6039471A', 'AU736484B2', 'US7133726B1', 'US6301779B1', 'GB9826237D0', 'EP1045038A1', 'US6337435B1', 'US6657169B2', 'US6496373B1', 'TW487298U', 'US6677151B2', 'US6659638B1', 'US6730883B2', 'US7079394B2', 'US20040241048A1', 'US6874566B1', 'US7051536B1', 'US7274571B2', 'US7213636B2', 'ES2401437T3', 'US7472742B2', 'US7251136B2', 'JP2007329253A', 'US7629124B2', 'US8962306B2', 'US20080128118A1', 'WO2008091626A1', 'US9920939B2', 'US20080266806A1', 'US20090139311A1', 'CA2716337C', 'CN201230438Y', 'CN102473696A', 'US20130032323A1', 'FR3062460B1']",[],"['CN201230438Y', 'CN102473696A']","['CN201230438Y', 'CN102473696A']"
+IN2015DN04078A,Patent IN2015DN04078A ,IN,2015-10-09,Disclosed are a pick up device and a pick up method. The pick up device comprises: a display unit module used for displaying an image; a receiving unit module used for receiving an instruction for operating on the image displayed on the display unit module; and a processing unit module used for selecting a photometric location and/or a focusing location according to the instruction received by the receiving unit module. The present invention can oppositely operate and select a focusing region and a photometric region as required so as to perform patterning according to different scenarios thereby improving the user experience. Thus in the process of finding a view a user can respectively drag a focusing box or a photometric box to perform independent focusing and photometry thereby improving the playability and the user experience.,H04N23/62,Control of parameters via user interfaces,,,Yunze Zhao,"['KR101691764B1', 'CN104079928A', 'US20160261789A1', 'CN106101680B', 'CN106713886B', 'CN108737717A', 'CN110177218B']","['JP4040139B2', 'US7551223B2', 'JP3829144B2', 'JP4929630B2', 'KR100805293B1', 'JP2008166926A', 'US20080266438A1', 'JP4879127B2', 'JP2009273033A', 'US8237807B2', 'US7844174B2', 'KR101505681B1', 'CN101582985B', 'US8233789B2', 'JP2012095236A', 'US20120242852A1', 'KR101691764B1']","['KR101691764B1', 'CN104079928A', 'US20160261789A1', 'CN106101680B', 'CN106713886B', 'CN108737717A', 'CN110177218B', 'JP4040139B2', 'US7551223B2', 'JP3829144B2', 'JP4929630B2', 'KR100805293B1', 'JP2008166926A', 'US20080266438A1', 'JP4879127B2', 'JP2009273033A', 'US8237807B2', 'US7844174B2', 'KR101505681B1', 'CN101582985B', 'US8233789B2', 'JP2012095236A', 'US20120242852A1', 'KR101691764B1']","['CN104079928A', 'CN106101680B', 'CN106713886B', 'CN108737717A', 'CN110177218B']",['CN101582985B'],"['CN104079928A', 'CN106101680B', 'CN106713886B', 'CN108737717A', 'CN110177218B', 'CN101582985B']"
+IN2015DN00648A,Patent IN2015DN00648A ,IN,2015-06-26,A system (100) and method for processing an electronic order is provided. The system comprises a remotely accessible server (102) having a first interface (108) with an ordering entity (106) a second interface (112) with a number of vendors (110) and a third interface (116) with a number of delivery providers (114). The server (102) is configured to receive an order placed by a consumer (104) with the ordering entity (106) through the first interface (108) transmit the order to a vendor (110) by means of the second interface (112) and once the order is ready for fulfilment transmit a delivery instruction to a delivery provider (114) through the third interface (116). The server (102) is further configured to compute fees due to the vendor (110) and delivery provider (114) update a ledger account with the applicable amounts and at regular intervals transmit an instruction to a payment gateway (120) for settlement of the amounts due to each party.,G06Q10/08,"Logistics, e.g. warehousing, loading or distribution; Inventory or stock management",,,Ernst Heinz Van Biljon,"['CN105373956A', 'US20170236088A1', 'US10163070B1', 'CN110097436B', 'US11379907B1', 'US11756146B2', 'US11922421B2']","['AU761324B2', 'US7181438B1', 'US7359887B1', 'US20110130134A1', 'US7274658B2', 'US7212991B2', 'US7647249B2', 'US7890391B2', 'WO2007129318A2', 'US7949572B2', 'US9105059B2', 'US8126782B1', 'US20080172344A1', 'CA2659698C', 'US10628835B2', 'WO2012006031A1', 'US8799015B2']","['CN105373956A', 'US20170236088A1', 'US10163070B1', 'CN110097436B', 'US11379907B1', 'US11756146B2', 'US11922421B2', 'AU761324B2', 'US7181438B1', 'US7359887B1', 'US20110130134A1', 'US7274658B2', 'US7212991B2', 'US7647249B2', 'US7890391B2', 'WO2007129318A2', 'US7949572B2', 'US9105059B2', 'US8126782B1', 'US20080172344A1', 'CA2659698C', 'US10628835B2', 'WO2012006031A1', 'US8799015B2']","['CN105373956A', 'CN110097436B']",[],"['CN105373956A', 'CN110097436B']"
+IN2014DN11211A,Patent IN2014DN11211A ,IN,2015-10-02,A transport and stowage instruction computer (3) reads out and inputs (S1) a product information file (41) then references a ship hold information file (45) and plans (S3) a stowage sequence for shipment products (C) under conditions that satisfy work restrictions related to a work process for stowing the shipment products (C) in a ship hold (171). The loading conditions are subsequently set (S5). Shipment products (C) are arranged in stowage sequence on transport pallets (7) which have been placed or replaced in accordance with loading conditions while the placement or replacement of the transport pallets (7) on a pallet platform (1 to 4) is reproduced under conditions that satisfy work conditions related to a work process for loading the transport pallets (7) on the pallet platform (1 to 4) whereby a pallet loading plan for shipment products (C) is created (S7).,G06Q10/08,"Logistics, e.g. warehousing, loading or distribution; Inventory or stock management",,,Shigeto Hojo,"['JP6210036B2', 'CN106516807B', 'BE1026895B1', 'CN110182619B', 'CN112016730B', 'KR20220110576A', 'CN111470341A']","['JP2632851B2', 'JPH07117953B2', 'JPH10305929A', 'JPH11263581A', 'US6808356B2', 'MY141535A', 'JP2006273464A', 'AU2007203448B2', 'JP5446204B2']","['JP6210036B2', 'CN106516807B', 'BE1026895B1', 'CN110182619B', 'CN112016730B', 'KR20220110576A', 'CN111470341A', 'JP2632851B2', 'JPH07117953B2', 'JPH10305929A', 'JPH11263581A', 'US6808356B2', 'MY141535A', 'JP2006273464A', 'AU2007203448B2', 'JP5446204B2']","['CN106516807B', 'CN110182619B', 'CN112016730B', 'CN111470341A']",[],"['CN106516807B', 'CN110182619B', 'CN112016730B', 'CN111470341A']"
+IN2014DE01188A,Patent IN2014DE01188A ,IN,2015-06-05,"To easily change the priority of a demand regulating control for a device in accordance with a simple operation by a consumer. A demand regulating system includes: an operation unit that selects from among a plurality of consumption devices, on the basis of priority information and a regulating quantity, a plurality of control-target devices, which are targeted for demand regulating control reducing consumption of the resource, transmitting a first control instruction instructing the demand regulating control to demand side equipment that includes the plurality of control-target devices, and storing results information indicating the first control instruction in a storage unit; a control unit that executes the demand regulating control on the basis of the first control instruction; and an input unit that receives a first operation by the consumer, and transmitting first request information requesting a change in the priorities of the plurality of control-target devices, to the operation unit in accordance with the first operation. The operation unit, upon receiving the first request information, specifies the plurality of control-target devices on the basis of the results information and the first request information, and changes the priorities of the plurality of control-target devices in the priority information.",G05F1/66,Regulating electric power,,,Hirotaka Takahashi,"['JP6348096B2', 'CN110462696B', 'US11239660B2', 'CN107240917B', 'CN107395397B', 'JP6816059B2']","['JP2685942B2', 'US5572438A', 'US7827076B2', 'JP2010506125A', 'JP2008125295A', 'JP4931656B2', 'KR101286596B1', 'US7958316B2', 'JP2010075015A', 'JP5255462B2', 'JP4910020B2', 'JP2011055622A', 'JP5618511B2', 'JP5520118B2', 'US8410633B2', 'JP5204819B2', 'JP2012151992A', 'JP5117625B1', 'JP5457407B2']","['JP6348096B2', 'CN110462696B', 'US11239660B2', 'CN107240917B', 'CN107395397B', 'JP6816059B2', 'JP2685942B2', 'US5572438A', 'US7827076B2', 'JP2010506125A', 'JP2008125295A', 'JP4931656B2', 'KR101286596B1', 'US7958316B2', 'JP2010075015A', 'JP5255462B2', 'JP4910020B2', 'JP2011055622A', 'JP5618511B2', 'JP5520118B2', 'US8410633B2', 'JP5204819B2', 'JP2012151992A', 'JP5117625B1', 'JP5457407B2']","['CN110462696B', 'CN107240917B', 'CN107395397B']",[],"['CN110462696B', 'CN107240917B', 'CN107395397B']"
+IN2012CN00366A,Patent IN2012CN00366A ,IN,2015-08-21,"Disclosed is a display device that makes recording and scheduling programs chosen by a user simpler than was conventionally possible. While viewing a broadcast program of any channel on the display device, a user gives an instruction for different-channel program guide display (S1) . The display device displays different-channel programs broadcasted at the time as a list (S2) . In that state, the user presses down the cursor button of a remote controller (S3), the position of the cursor is changed (S4), and the user press down a record button (45) (S5) to start recording the program at the cursor position (S6).",G09G3/3426,"Control of illumination source using several illumination sources separately controlled corresponding to different display panel areas, e.g. along one dimension such as lines the different display panel areas being distributed in two dimensions, e.g. matrix",,,Takaomi Fujimoto,"['KR101285097B1', 'KR101705903B1', 'KR101701779B1', 'EP2742776B1', 'US20140132493A1', 'US20150278854A1', 'KR102618734B1', 'KR102663002B1']","['JPH08328511A', 'JP3533185B2', 'JP4032696B2', 'JP4753661B2', 'KR100728007B1', 'TW200737093A', 'KR100839411B1', 'US8154493B2', 'JP2008071603A', 'KR101327835B1', 'KR101332029B1', 'KR101410465B1', 'US7956824B2', 'KR20090054218A', 'JP5642347B2']","['KR101285097B1', 'KR101705903B1', 'KR101701779B1', 'EP2742776B1', 'US20140132493A1', 'US20150278854A1', 'KR102618734B1', 'KR102663002B1', 'JPH08328511A', 'JP3533185B2', 'JP4032696B2', 'JP4753661B2', 'KR100728007B1', 'TW200737093A', 'KR100839411B1', 'US8154493B2', 'JP2008071603A', 'KR101327835B1', 'KR101332029B1', 'KR101410465B1', 'US7956824B2', 'KR20090054218A', 'JP5642347B2']",[],[],[]
+IN2015DN03070A,Patent IN2015DN03070A ,IN,2015-10-02,"Described herein is the generation of optimized H1N1 influenza HA polypeptides for eliciting a broadly reactive immune response to H1N1 influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments , and subsequent generation of consensus sequences , based on selected H1N1 viruses isolated from 1918- 2012. Provided herein are optimized H1N1 HA polypeptides , and compositions , fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon -optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.",C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'EP2831094B1', 'US10220086B2', 'EP3307761A4', 'IL312520A']","['ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'SI2445928T1', 'US20110184160A1', 'US8298820B2', 'CN102373184A', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'EP2831094B1']","['AU2011302360B2', 'KR20140047069A', 'EP2831094B1', 'US10220086B2', 'EP3307761A4', 'IL312520A', 'ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'SI2445928T1', 'US20110184160A1', 'US8298820B2', 'CN102373184A', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'EP2831094B1']",[],['CN102373184A'],['CN102373184A']
+IN266883B,Patent IN266883B ,IN,2015-06-11,"A Viterbi pack instruction is disclosed that masks the contents of a first predicate register with a first masking value and masks the contents of a second predicate register with a second masking value. The resulting masked data is written to a destination register. The Viterbi pack instruction may be implemented in hardware, firmware, software, or any combination thereof.",H03M13/41,"Sequence estimation, i.e. using statistical methods for the reconstruction of the original codes using the Viterbi algorithm or Viterbi processors",,,Mao Zeng,"['CN107220027A', 'US9367309B2', 'US9390058B2', 'US9552205B2', 'US11681531B2', 'US10031756B2', 'US10198263B2', 'US10061584B2', 'US10180840B2']","['US4012722A', 'US4128880A', 'US5752001A', 'US5621674A', 'EP1499039B1', 'US6334202B1', 'US6798736B1', 'US20020002666A1', 'US6115808A', 'US6333954B1', 'US6654878B1', 'GB2367650B', 'US20040054877A1', 'US7313639B2', 'KR20040085545A', 'US20050149701A1']","['CN107220027A', 'US9367309B2', 'US9390058B2', 'US9552205B2', 'US11681531B2', 'US10031756B2', 'US10198263B2', 'US10061584B2', 'US10180840B2', 'US4012722A', 'US4128880A', 'US5752001A', 'US5621674A', 'EP1499039B1', 'US6334202B1', 'US6798736B1', 'US20020002666A1', 'US6115808A', 'US6333954B1', 'US6654878B1', 'GB2367650B', 'US20040054877A1', 'US7313639B2', 'KR20040085545A', 'US20050149701A1']",['CN107220027A'],[],['CN107220027A']
+IN2014DN05971A,Patent IN2014DN05971A ,IN,2015-06-26,A communication system comprising a core network operably coupled to a small base station (HNB) arranged to support wireless communications to a user equipment UE is described. The HNB comprises a control processor being arranged in a first embodiment to: support setting up of an air interface connection with the UE to allow the UE and the core network to exchange messages e.g. for a Location Update procedure and to receive an instruction from the core network via a core network connection to release the connection to the core network; usually the HNB would transmit a RRC Connection Release message to the UE; however the UE utilizes this situation to request and receive UE measurements by using RRC Measurement Control/Report messages and thus delays the initiation of the RRC Connection Release procedure towards the UE; in a econd embodiment the control processor is arranged to autonomously page the UE: thus the UE establishes a RRC connection for responding to the paging message and the HNB may request receive UE measurements,H04W76/25,Maintenance of established connections,,,John Yearsley Bromell,"['US9100931B2', 'JP6427935B2', 'CN107534865A', 'CN108093360B', 'US11490246B2', 'EP3624516B1']","['SG46329A1', 'US6901252B2', 'FI20075062A0', 'KR101464748B1', 'US8085714B2', 'US8515436B2', 'WO2010137698A1', 'US8185116B2']","['US9100931B2', 'JP6427935B2', 'CN107534865A', 'CN108093360B', 'US11490246B2', 'EP3624516B1', 'SG46329A1', 'US6901252B2', 'FI20075062A0', 'KR101464748B1', 'US8085714B2', 'US8515436B2', 'WO2010137698A1', 'US8185116B2']","['CN107534865A', 'CN108093360B']",[],"['CN107534865A', 'CN108093360B']"
+IN2015MU03578A,Patent IN2015MU03578A ,IN,2015-10-02,"Blackboards are used as one of the oldest teaching device in the world but with the modifications in the technology whiteboards are invented for eliminating the diseases caused by chalk powder. Now-a-days Whiteboards are used in most of the educational Institutes. Large size whiteboards give advantage of using more area for writing purpose but on the contradictory it is time consuming to nib the boards. Different methods of cleaning the boards have been developed. This led to the invention of self-cleaning whiteboards. Hence, many approaches are introduced to clean the board automatically. An attempt has been made to modify the features of automated motorized whiteboard by introducing a duster detaching mechanism. Due to this mechanism teacher can use the writings on the board as a future reference. The system consists of many small parts and mechanisms which are used efficiently for the working of the board. Some of them are: - Flexible whiteboard surface material, dusters, plastic rollers, cam and follower, four bar mechanism and motors. The working of this system is based on rotation of flexible whiteboard sheet material around the rollers. Rollers are operated by means of motors. In this way the whiteboard surface gets cleaned automatically by the dusters fixed on the backside of the board. If anyone wants to use writing for future reference then cam follower and four bar mechanism is used to detach the dusters from whiteboard. In addition to this a stand is designed to adjust the height of the board and also to make it portable. 	PARTS	SPECIFICATIONS/ DIMENSIONS 1.	DC Gear motor	Speed-lOORPM Voltage-4V to 12V Stall torque-42.5 IKg-cm Stall current-6.9Amp Gear assembly-Spur Shaft length-25 to 30mm Shaft diameter-8mm 2.	Wooden Block (Covered with sunmica sheet)	Length-80cm Height-50cm Breadth-5cm 3.	Rollers (PVC Pl astic)	Diameter-5cm Height-40cm 4.	Duster holders  (Plywood)	C Shaped Height-65cm Breadth-10cm Width-10cm Thickness-1.2cm 5.	Dusters (Sponge)		1st pa ttern	2nd pattern	3rd pattern Length Breadth	28cm  3 cm	14cm 3cm	40cm 3cm 6.	AC to DC Converter	Voltage-12V Current-3A 7.	White board surface	Length- 19 Breadth-40	2cm cm 8. Cam and followers Outer   diameter- 6 cm Inner diameter- 3 cm Type- Tangent cam 9. Springs	Mean diameter - 20 mm Coil diameter - 1 mm 10. Stand	Cross sections: 1.	2.56 cm 2.	3.175 cm 3.	3.81 cm",,,,,Bhushan Tukaram Chougule,['CN112009145A'],[],['CN112009145A'],['CN112009145A'],[],['CN112009145A']
+IN2014DE00902A,Patent IN2014DE00902A ,IN,2015-10-02,"The present disclosure provides novel polynucleotide sequences for high level expression in Escherichia coli and encoding recombinant SsoPox wild-type enzyme and its variant having enhanced organophosphate (OP)-hydrolyzing activity. The invention also provides a novel method to produce the recombinant enzymes in highly pure and active form in an unprecedented high yield. The invention also provide a method to generate reusable nanobiocatalyst by covalently immobilizing pure recombinant SsoPox enzymes onto magnetic nanoparticles. The reusable nanobiocatalyst can be recovered from the reaction mixture after its use and can be stored and reused multiple times to degrade the organophosphate-compounds. The recombinant SsoPox enzymes and rSsoPox-immobilized nanobiocatalyst can be used as an economical, effective and environmental-friendly OPcompound biodegrading agent.",C12N9/16,Hydrolases (3) acting on ester bonds (3.1),,,Hariram Pande Abhay,"['CN103703128B', 'CA2986197C', 'CA2992261A1', 'CA3031802A1', 'SE1750143A1']","['FR2915489B1', 'EP2934570A1']","['CN103703128B', 'CA2986197C', 'CA2992261A1', 'CA3031802A1', 'SE1750143A1', 'FR2915489B1', 'EP2934570A1']",['CN103703128B'],[],['CN103703128B']
+IN2012DE00145A,Patent IN2012DE00145A ,IN,2015-06-05,"A processor is provided with: a computation unit; a storage unit that stores a program/ and a data transmission circuit that transmits to said operation monitoring unit a bit signal corresponding to an instruction for reporting the execution stage of the program. An operation monitoring unit comprises a transition operation identification circuit and a loop processing identification circuit. The transition operation identification circuit is provided beforehand with: a start ID instruction whereby an ID that identifies a task that is a transition source is attached; a termination ID instruction that identifies termination of task operation; and, if the task in question is execution of loop processing, a looping instruction that reports the maximum value of the number of times of this loop processing. The transition operation identification circuit identifies success of the transition operations of the tasks of the program, based on these start ID instructions and termination ID instruction. The loop processing identification circuit identifies abnormality of the number of times of loop processing. [Selected drawing] FIG. 1",G06F11/0715,"Error or fault processing not based on redundancy, i.e. by taking additional measures to deal with the error or fault not making use of redundancy in operation, in hardware, or in data representation the processing taking place on a specific hardware platform or in a specific software environment in a system implementing multitasking",,,Naoya Ohnishi,"['JP2012088815A', 'JP6718294B2', 'JP7045293B2', 'CN111651325A']","['US7062684B2', 'EP1764762B1', 'US20070011300A1', 'JP4359632B2', 'WO2009096519A1', 'JP2010009296A', 'JP5360061B2', 'JP6050754B2', 'US9135586B2']","['JP2012088815A', 'JP6718294B2', 'JP7045293B2', 'CN111651325A', 'US7062684B2', 'EP1764762B1', 'US20070011300A1', 'JP4359632B2', 'WO2009096519A1', 'JP2010009296A', 'JP5360061B2', 'JP6050754B2', 'US9135586B2']",['CN111651325A'],[],['CN111651325A']
+IN2014CN04924A,Patent IN2014CN04924A ,IN,2015-09-18,Provided is a method for controlling a vehicle generator motor and a power converter for a vehicle generator motor configured so that in a field winding vehicle generator motor comprising a power converter connected to a rotating electric motor that has a field winding and an armature winding and being controlled in accordance with an external operating instruction the method for stopping a drive mode is switched according to the intended operating mode when the generator motor transitions to another operating mode from a drive state whereby the generator motor can rapidly transition to the desired operating mode without any incidence of unintended power generation excessive power generation or excessive torque fluctuation.,B60L7/18,Controlling the braking effect,,,Mitsunori Tabata,"['CN104104293B', 'BR112018072902B1', 'WO2018083758A1', 'JP6834460B2', 'JP6377190B2', 'FR3077445B1']","['JP3517405B2', 'JP4655431B2', 'JP4376589B2', 'JP2006034027A', 'FR2881295B1', 'JP4570982B2', 'JP2007159353A', 'JP4185094B2', 'FR2918222B1', 'JP4974988B2', 'JP4849421B2', 'JP4906825B2', 'JP5174617B2', 'JP2012228017A', 'WO2013171843A1', 'US9755557B2', 'JP2014204451A']","['CN104104293B', 'BR112018072902B1', 'WO2018083758A1', 'JP6834460B2', 'JP6377190B2', 'FR3077445B1', 'JP3517405B2', 'JP4655431B2', 'JP4376589B2', 'JP2006034027A', 'FR2881295B1', 'JP4570982B2', 'JP2007159353A', 'JP4185094B2', 'FR2918222B1', 'JP4974988B2', 'JP4849421B2', 'JP4906825B2', 'JP5174617B2', 'JP2012228017A', 'WO2013171843A1', 'US9755557B2', 'JP2014204451A']","['CN104104293B', 'BR112018072902B1']",[],"['CN104104293B', 'BR112018072902B1']"
+IN2014DN08128A,Patent IN2014DN08128A ,IN,2015-05-01,The present invention proposes under a terminal device aspect a device comprising a control module a memory module and a transceiver module wherein the control module is configured to report a candidate transceiver device for use after a handover via the transceiver module and receive a handover instruction via the transceiver module the handover instruction comprising at least an indication that information is to be stored in the memory module for use in a processing to be applied after handover. Also under a net work transceiver device aspect there is proposed a device comprising a control module a memory module and a transceiver module wherein the control module is configured to receive a report indicative of a candidate transceiver device for use after a handover via the transceiver module and upon processing the report to issue a handover instruction via the transceiver module the handover instruction comprising at least an indication that information is to be stored in a memory module of a terminal device for use in a processing to be applied after handover. Likewise the present invention encompasses corresponding methods and respective computer program products. Further network transceiver device aspects related to such device to which handover is performed are encompassed.,H04W36/0061,Transmission or use of information for re-establishing the radio link of neighbour cell information,,,Chunhai Yao,"['US9621316B2', 'EP3163945B1', 'JP7047104B2', 'CN110719156B']","['US20050111408A1', 'JP4711760B2', 'US8463270B2', 'CN101489231B', 'US8635645B2', 'CN101827412B', 'KR101706350B1', 'US8868091B2', 'US9350496B2', 'CN102792734B', 'KR101805675B1', 'US20110243093A1', 'US8688121B2', 'KR20120010645A', 'CN102378206B']","['US9621316B2', 'EP3163945B1', 'JP7047104B2', 'CN110719156B', 'US20050111408A1', 'JP4711760B2', 'US8463270B2', 'CN101489231B', 'US8635645B2', 'CN101827412B', 'KR101706350B1', 'US8868091B2', 'US9350496B2', 'CN102792734B', 'KR101805675B1', 'US20110243093A1', 'US8688121B2', 'KR20120010645A', 'CN102378206B']",['CN110719156B'],"['CN101489231B', 'CN101827412B', 'CN102792734B', 'CN102378206B']","['CN110719156B', 'CN101489231B', 'CN101827412B', 'CN102792734B', 'CN102378206B']"
+IN2014DN03333A,Patent IN2014DN03333A ,IN,2015-06-05,A method of controlling pressure in a well can include transmitting an instruction to change flow through an annulus formed radially between a drill string and a wellbore and adjusting a pressure setpoint in response to the transmitting. A well drilling system can include a flow control device which varies flow through a drill string and a control system which changes a pressure setpoint in response to an instruction for the flow control device to change the flow through the drill string. A method of controlling pressure in a well can include transmitting an instruction to divert flow from a drill string and adjusting a pressure setpoint in response to the transmitting.,E21B21/08,"Controlling or monitoring pressure or flow of drilling fluid, e.g. automatic filling of boreholes, automatic control of bottom pressure",,,James R Lovorn,['CN109060081B'],"['US7721822B2', 'US20020112888A1', 'US6904981B2', 'US20050092523A1', 'MY140447A', 'EA015325B1', 'US8490719B2', 'GB2477880B', 'US8281875B2', 'US20100186960A1', 'CN201593387U']","['CN109060081B', 'US7721822B2', 'US20020112888A1', 'US6904981B2', 'US20050092523A1', 'MY140447A', 'EA015325B1', 'US8490719B2', 'GB2477880B', 'US8281875B2', 'US20100186960A1', 'CN201593387U']",['CN109060081B'],['CN201593387U'],"['CN109060081B', 'CN201593387U']"
+IN2013MU04036A,Patent IN2013MU04036A ,IN,2015-08-21,"A process for registering applications is disclosed. The applications typically work in a Session Initiation Protocol (SIP) JSR 289 environment. A request to register a application to monitor a communication session is received. A first instruction that identifies a first event in the communication session is received from the application. An event may be the sending of a specific type of packet, such as a SIP INVITE. The first event in the communication session is detected. In response to detecting the first event in the communication session, the application is registered to monitor the communication session according to the first instruction. A notification is also sent to the application to monitor the communication session according to the first instruction.",G06F9/54,Interprogram communication,,,Vipul Rastogi,"['CN109040049B', 'US11973614B2']","['US6915457B1', 'US8050253B2', 'US8179889B2']","['CN109040049B', 'US11973614B2', 'US6915457B1', 'US8050253B2', 'US8179889B2']",['CN109040049B'],[],['CN109040049B']
+IN2015DN02017A,Patent IN2015DN02017A ,IN,2015-08-14,A method is presented of requesting and receiving content over a network for use at a device. A request for the content is sent (S1) from the device to a content server located in the network. A response is received (S2) at the device from the content server. The response provides a content readiness estimate for the requested content. The readiness estimate is an estimate of when the content will be ready for use at the device according to a predetermined criterion based on network conditions affecting delivery of the content from the content server to the device. A content readiness indication is presented (S3) at the device to a user of the device. The readiness indication is derived in dependence upon the readiness estimate and indicates to the user when or whether the content will be or is ready for use at the device according to the predetermined criterion. An instruction is received (S4) at the device from the user indicating when the user wishes to commence use of the content at the device. Content is received (S5) at the device from the content server and stored it at least until it is required for use. Use of the content is commenced (S6) at the device according to the instruction.,H04L67/62,Establishing a time schedule for servicing the requests,,,Attila Mihály,"['US9137125B1', 'WO2016088237A1', 'US10382513B2', 'WO2018166726A1', 'JP6927135B2']","['US5908467A', 'US6304909B1', 'US20030074379A1', 'US9270944B2', 'CN102282550A', 'US8391896B2', 'US8825790B2']","['US9137125B1', 'WO2016088237A1', 'US10382513B2', 'WO2018166726A1', 'JP6927135B2', 'US5908467A', 'US6304909B1', 'US20030074379A1', 'US9270944B2', 'CN102282550A', 'US8391896B2', 'US8825790B2']",[],['CN102282550A'],['CN102282550A']
+IN2014CN04369A,Patent IN2014CN04369A ,IN,2015-09-04,Upon obtaining an instruction from a user (S10) respective gains of R G and B in a color temperature direction and in a deviation direction specified by the instruction are obtained (S11) and the respective products are computed (S12). Maximum values are identified among the respective products of R G and B (S13) raised such that the identified maximum values become a value of 1 (S14) and the resulting values are used as the respective gains of R G and B in order to update an RGB conversion table (S15).,G09G5/026,Control of mixing and/or overlay of colours in general,,,Toshiyuki Fujine,['US10264231B2'],"['JP2001177846A', 'JP2007142983A', 'JP5083958B2', 'CN102057674A']","['US10264231B2', 'JP2001177846A', 'JP2007142983A', 'JP5083958B2', 'CN102057674A']",[],['CN102057674A'],['CN102057674A']
+IN2014KN01021A,Method device and system for implementing multimedia data recording ,IN,2015-10-09,Disclosed are a method device and system for implementing multimedia data recording. The method comprises: a distributing device generating a recording instruction the recording instruction comprising multimedia data identification information; and the distributing device sending the recording instruction to a recording device so that the recording device identifies and records multimedia data corresponding to the multimedia data identification information. According to embodiments of the present invention the distributing device only needs to determine multimedia data identification information corresponding to multimedia data that needs to be recorded and sends the information to the recording device without processing and distributing all multimedia data and the recording device identifies the multimedia data corresponding to the multimedia data identification information and records the multimedia data. The amount of data processed by the distributing device is very small so that the efficiency of multimedia data recording is improved.,H04M3/5307,"Centralised arrangements for recording incoming messages, i.e. mailbox systems for recording messages comprising any combination of audio and non-audio components",,,Jie Wu,"['US9749435B2', 'GB2553547B', 'US11252206B2', 'CN113691585B']","['JP2737628B2', 'JP2002516042A', 'GB9607615D0', 'US5867494A', 'US6335927B1', 'US6731625B1', 'US6122665A', 'US6937597B1', 'US6246752B1', 'US6252947B1', 'EP1260061A2', 'JP2001333414A', 'US20070136445A1', 'US20110238855A1', 'TW561358B', 'US7024460B2', 'US20030229549A1', 'US7457416B1', 'US6979403B2', 'KR100438056B1', 'KR100511479B1', 'US7352997B2', 'US8607297B2', 'US7496942B2', 'JP4147422B2', 'US7529753B1', 'CN1642083A', 'CN1761359B', 'RU2393556C2', 'KR100673514B1', 'CN100382503C', 'US7873035B2', 'JP5016610B2', 'JP2007208577A', 'JP4594258B2', 'US8347341B2', 'US7647464B2', 'CN101102204A', 'US20080037729A1', 'US9137287B2', 'US7848265B2', 'NO324754B1', 'US7570755B2', 'US8085708B2', 'EP2051522B1', 'US7720918B1', 'US8650589B2', 'US7836171B2', 'US20080281696A1', 'ATE498969T1', 'US8086677B2', 'US20100312861A1', 'US8938747B2', 'US20090185665A1', 'US20090187951A1', 'US8320536B2', 'US20090328118A1', 'US20090285392A1', 'KR20100027686A', 'CN101674470B', 'JP5215099B2', 'US7958233B2', 'US8219711B2', 'JP2010166319A', 'CN101494655B', 'US20100299191A1', 'JP5432599B2', 'US8904421B2', 'US9294571B2', 'CN101710965A', 'JP2011147007A', 'US8204860B1', 'US8335175B2', 'US8255542B2', 'US8606921B2', 'US8489760B2', 'CA2834168C', 'PT3633918T', 'US9277025B2']","['US9749435B2', 'GB2553547B', 'US11252206B2', 'CN113691585B', 'JP2737628B2', 'JP2002516042A', 'GB9607615D0', 'US5867494A', 'US6335927B1', 'US6731625B1', 'US6122665A', 'US6937597B1', 'US6246752B1', 'US6252947B1', 'EP1260061A2', 'JP2001333414A', 'US20070136445A1', 'US20110238855A1', 'TW561358B', 'US7024460B2', 'US20030229549A1', 'US7457416B1', 'US6979403B2', 'KR100438056B1', 'KR100511479B1', 'US7352997B2', 'US8607297B2', 'US7496942B2', 'JP4147422B2', 'US7529753B1', 'CN1642083A', 'CN1761359B', 'RU2393556C2', 'KR100673514B1', 'CN100382503C', 'US7873035B2', 'JP5016610B2', 'JP2007208577A', 'JP4594258B2', 'US8347341B2', 'US7647464B2', 'CN101102204A', 'US20080037729A1', 'US9137287B2', 'US7848265B2', 'NO324754B1', 'US7570755B2', 'US8085708B2', 'EP2051522B1', 'US7720918B1', 'US8650589B2', 'US7836171B2', 'US20080281696A1', 'ATE498969T1', 'US8086677B2', 'US20100312861A1', 'US8938747B2', 'US20090185665A1', 'US20090187951A1', 'US8320536B2', 'US20090328118A1', 'US20090285392A1', 'KR20100027686A', 'CN101674470B', 'JP5215099B2', 'US7958233B2', 'US8219711B2', 'JP2010166319A', 'CN101494655B', 'US20100299191A1', 'JP5432599B2', 'US8904421B2', 'US9294571B2', 'CN101710965A', 'JP2011147007A', 'US8204860B1', 'US8335175B2', 'US8255542B2', 'US8606921B2', 'US8489760B2', 'CA2834168C', 'PT3633918T', 'US9277025B2']",['CN113691585B'],"['CN1642083A', 'CN1761359B', 'RU2393556C2', 'CN100382503C', 'CN101102204A', 'CN101674470B', 'CN101494655B', 'CN101710965A']","['CN113691585B', 'CN1642083A', 'CN1761359B', 'RU2393556C2', 'CN100382503C', 'CN101102204A', 'CN101674470B', 'CN101494655B', 'CN101710965A']"
+IN2015DN02507A,Patent IN2015DN02507A ,IN,2015-09-11,"To provide a display control method , computer program , display control device and image display system capable of improving operability for a user when a plurality of screens are displayed on one display device. [Solution] A work area generation unit (13) generates a plurality of areas corresponding to a plurality of display areas to be displayed upon a display screen (54) and assigns the first mentioned plurality of areas to within one work area. A pointer position monitoring unit (15), if only a display area A (parent screen) is displayed on the display screen (54) (if PinP functioning is off), assesses whether or not a pointer position has moved from area a to area b, and outputs the assessment result to a simultaneous display instruction generation unit (17). The simultaneous display instruction generation unit (17), when the pointer position monitoring unit (15) assesses that the pointer position has moved from the area a to the area b, outputs a PinP -function -ON instruction to a display device (50).",H04N5/45,"Picture in picture, e.g. displaying simultaneously another television channel in a region of the screen",,,Takahiro Kono,"['JP6280435B2', 'US10867445B1', 'TWI749305B', 'US11157160B1', 'CN112764844A']","['DE3632601A1', 'US5329369A', 'US5434625A', 'US5420643A', 'US5305435A', 'JPH0827700B2', 'JPH06274305A', 'JPH06314181A', 'US5956030A', 'JPH08123649A', 'DE69805986T2', 'US6313880B1', 'JPH1173294A', 'US6091395A', 'JP2000099238A', 'TW460839B', 'JP4541476B2', 'US6373500B1', 'JP2001134378A', 'JP2002182816A', 'JP4055359B2', 'EP1233614B1', 'JP2002323968A', 'US7546540B2', 'US7564425B2', 'US7739604B1', 'US7142192B2', 'US20040150649A1', 'US20050275641A1', 'EP1491990B1', 'US7665031B2', 'US7698706B2', 'KR100630190B1', 'US8095887B2', 'US8191008B2', 'US8508470B2', 'KR100827228B1', 'US8893038B2', 'US8296662B2', 'EP1956838A3', 'US8910209B2', 'US20090037822A1', 'JP4412737B2', 'JP5707015B2', 'US8490019B2', 'JP4535150B2', 'EP2299699A3', 'JP4824805B2', 'US8769428B2', 'US20110214063A1', 'US9788046B2', 'US9015641B2', 'US20120185805A1', 'US9201567B2', 'US8839292B1', 'US20130227472A1', 'US9063631B2']","['JP6280435B2', 'US10867445B1', 'TWI749305B', 'US11157160B1', 'CN112764844A', 'DE3632601A1', 'US5329369A', 'US5434625A', 'US5420643A', 'US5305435A', 'JPH0827700B2', 'JPH06274305A', 'JPH06314181A', 'US5956030A', 'JPH08123649A', 'DE69805986T2', 'US6313880B1', 'JPH1173294A', 'US6091395A', 'JP2000099238A', 'TW460839B', 'JP4541476B2', 'US6373500B1', 'JP2001134378A', 'JP2002182816A', 'JP4055359B2', 'EP1233614B1', 'JP2002323968A', 'US7546540B2', 'US7564425B2', 'US7739604B1', 'US7142192B2', 'US20040150649A1', 'US20050275641A1', 'EP1491990B1', 'US7665031B2', 'US7698706B2', 'KR100630190B1', 'US8095887B2', 'US8191008B2', 'US8508470B2', 'KR100827228B1', 'US8893038B2', 'US8296662B2', 'EP1956838A3', 'US8910209B2', 'US20090037822A1', 'JP4412737B2', 'JP5707015B2', 'US8490019B2', 'JP4535150B2', 'EP2299699A3', 'JP4824805B2', 'US8769428B2', 'US20110214063A1', 'US9788046B2', 'US9015641B2', 'US20120185805A1', 'US9201567B2', 'US8839292B1', 'US20130227472A1', 'US9063631B2']",['CN112764844A'],[],['CN112764844A']
+IN2015CH03668A,Patent IN2015CH03668A ,IN,2015-07-31,"Thus it came to our notice that theft the vehicles and reduce malpractice on the number plates road accidents especially in India are increasing at a faster rate. This lead us to think about the various causes of road accidents. We find out a number of reasons including driving while drunk, over speed, improper traffic controls, disobedience of traffic rules, substandard roads, mental stress, carelessness and usage of mobile phone while driving. that times number plates are identified is main thing. When we consider each of the above cases separately, for example over speed, there are already existing preventive measures to detect speed of vehicles. Likewise in the case of remaining factors also there are preventive measures or awareness can be done to an extent. But in the case of usage of mobile phone while driving, even though it is against law, there is a tendency among people to fake number plate. A brief comparison of the functional architecture of the microprocessor and microcontroller are explained below. The basic components of the microprocessor are CPU and external interface. The CPU consists of Arithmetic and Logic Unit and the instruction execution and decoding unit. In addition memory management, floating-point arithmetic instruction and data cache are also incorporated. External co-processor interface is provided for floating point arethmatic operation. The microcontroller is an I/O oriented single chip microcontroller. It is a subset of microcomputer with ALU, input, output, and memory and control unit. The microcontroller normally consist of CPU, internal RAM, internal EEPROM ,main memory, I/O port, DMA controller, interrupt handlers, timers, watchdog timers, ADC and DAC. Microcontrollers are widely used in control applications since the on-chip peripheral provided on them makes the system design simple and economical. The instruction set of microcontroller is versatile and suited for control applications. Thus it came to our notice that theft of the vehicles and reduce malpractice on the number plates road accidents especially in India are increasing at a faster rate. This lead us to think about the various causes of road accidents. We find out a number of reasons including driving while drunk, over speed, improper traffic controls, disobedience of traffic rules, substandard roads, mental stress, carelessness and usage of mobile phone while driving, that times number plates are identified is main thing. When we consider each of the above cases separately, for example over speed, there are already existing preventive measures to detect speed of vehicles.",,,,,G Gireeshan Dr M,['CN112199071A'],[],['CN112199071A'],['CN112199071A'],[],['CN112199071A']
+IN2013CH06212A,Patent IN2013CH06212A ,IN,2015-07-03,"ABSTRACT A trust based sensor network with a geog raphic routing algorithm enables a co-operative network for making packet forwarding achieved with higher confidence of successful delivery from source to destination. It includes a technique to deliver a message to a node in a network over multiple hops by means of position information. In this system, a trust relationship between neighbouring nodes can be developed. Thus, a trust-based communication path can be set up. The source broadcasts a request to all nodes in its coverage area. The nodes that know the destination’s identity will reply to the source node with their position. The source node selects and forwards packet to the trusted node which has knowledge of the neighbours’ location, each node can select the next hop neighbour that is closer to the destination and trustworthy, thus advance towards the destination in each step enabling successful delivery of packets.",,,,,S Thejaswini,['CN117915332A'],[],['CN117915332A'],['CN117915332A'],[],['CN117915332A']
+IN2013DE03741A,Patent IN2013DE03741A ,IN,2015-06-26,"The present invention provides a process for the synthesis of 1, 2-diamines having formula (A) via ring opening reaction of N-substituted aziridine with amines in the presence of water and a catalyst.",,,,,K Chakraborti Asit,['CN114478290A'],[],['CN114478290A'],['CN114478290A'],[],['CN114478290A']
+IN2013DE00228A,"“recombinant human paraoxonase 1 enzymes, method of generation and uses thereof” ",IN,2015-06-19,"The present invention provides novel polynucleotide sequences encoding recombinant human paraoxonase 1 enzymes, having enhanced catalytic activities towards a wide range of substrates including pro-atherogenic and pro-inflammatory molecules, quorum sensors and neurotoxic organophosphorus compounds, for high level expression in Escherichia coli. The invention also provides a novel method to produce the recombinant enzymes in highly pure and active form in high yield by refolding the recombinant enzymes from the inclusion. The molecules disclosed in the present invention can be used as therapeutic agents against PON1-associated disease or conditions. The molecules can also be used as detoxifying and decontaminating agents in numerous terrorist, drug, and environmental scenarios involving military and civilian welfare.",C12Y301/08001,"Aryldialkylphosphatase (3.1.8.1), i.e. paraoxonase",,,H Pande Abhay,"['CN110387380B', 'CN113621686A', 'CN114609216B']","['WO2007105223A2', 'US8735124B2']","['CN110387380B', 'CN113621686A', 'CN114609216B', 'WO2007105223A2', 'US8735124B2']","['CN110387380B', 'CN113621686A', 'CN114609216B']",[],"['CN110387380B', 'CN113621686A', 'CN114609216B']"
+IN2012DE00828A,Patent IN2012DE00828A ,IN,2015-08-28,"The invention describes a method for controlling the translation of predefined rules (R) and/or incoming data (D) of a data stream, the data of which (D) is described in an XML schema, wherein a conversion of hierarchically arranged elements (W, Kl, EL1, K2, EL2) of the XML schema into a list (L) containing list entries is performed. This is effected in that for an element (W, Kl, K2) which represents a parent compo¬nent in the XML schema, a fact class (FK) is created which for every possible relation¬ship arising from the parent component comprises a fact element (FE) comprising all elements (W, Kl, EL1, K2, EL2) of the path of the relevant relationship of the XML schema, wherein the fact elements (FE) represent the list entries of the fact class (FK). At least one of the fact elements (FE) is assigned property information (El) which represents a processing instruction for the assigned fact element (FE) for the translation of the rules (R) and/or data (D). A translation of the rules (R) is effected in that the elements (W, Kl, EL1, K2, EL2) of the XML schema contained in a path of the relationship are determined from the fact elements (FE) and in accordance with the respective assigned property information (El) are converted into a processing in¬struction that can be processed by a rule machine (RM). Furthermore, a translation of the data (D) of the data stream into a fact class instance (FKI) that can be processed by the rule machine (RM) is effected, in that in accordance with the prop¬erty information assigned to a fact element (FE) a predefined handling of optional elements (W, Kl, EL1, K2, EL2) of the XML schema is effected. Figure 2",G06F16/84,Mapping; Conversion,,,Gero Base,['US9460198B1'],"['JPH11242673A', 'US7003722B2', 'US20100057760A1']","['US9460198B1', 'JPH11242673A', 'US7003722B2', 'US20100057760A1']",[],[],[]
+IN2014CH00953A,Patent IN2014CH00953A ,IN,2015-05-08,"Embodiments of systems, methods and apparatuses for execution a NAME instruction are described. The execution of a VPBZHI causes, on a per data element basis of a second source, a zeroing of bits higher (more significant) than a starting point in the data element. The starting point is defined by the contents of a data element in a first source. The resultant data elements are stored in a corresponding data element position of a destination.",G06F9/30145,"Instruction analysis, e.g. decoding, instruction word fields",,,Ould-Ahmed-Vall Elmoustapha,['KR20230027561A'],"['FR1587656A', 'US4785393A', 'JPS61103241A', 'JPH02299082A', 'US5201056A', 'US5268858A', 'US5207132A', 'US5446912A', 'US6128725A', 'US20040054877A1', 'JP3857614B2', 'JP2006127460A', 'US8417921B2', 'US9003170B2', 'US20120078597A1', 'US20120185670A1', 'US20120254593A1', 'EP3805921B1', 'US9411592B2']","['KR20230027561A', 'FR1587656A', 'US4785393A', 'JPS61103241A', 'JPH02299082A', 'US5201056A', 'US5268858A', 'US5207132A', 'US5446912A', 'US6128725A', 'US20040054877A1', 'JP3857614B2', 'JP2006127460A', 'US8417921B2', 'US9003170B2', 'US20120078597A1', 'US20120185670A1', 'US20120254593A1', 'EP3805921B1', 'US9411592B2']",[],[],[]
+IN2013DE01934A,Patent IN2013DE01934A ,IN,2015-07-10,"A personal safety response system for detecting heart rate of an individual and finding a plurality of physiological parameters, the system comprising a sensory means housed in a housing means ensconced in the inner wear of an individual for continuously detecting a plurality of heart rate data and integrated to a data acquisition unit to record the heart rate data; a transmission means integrated to said data acquisition unit for transmitting the heart rate data detected by the sensory means; a processing means coupled to the transmission means and said sensory means; a computing means having said processing means integrated therein; wherein said processing means preprogrammed for sampling the plurality of heart rate data readings for detecting a jump in the heart rate compared to preceding heart rate readings and generating an output instruction automatically to be transmitted to a plurality of receiving stations thus providing a self-triggering system. Fig. 1",A61B5/0022,"Monitoring a patient using a global network, e.g. telephone networks, internet",,,Yash Bhatia,['US10004408B2'],"['US6847892B2', 'US20080266118A1', 'US20120203076A1']","['US10004408B2', 'US6847892B2', 'US20080266118A1', 'US20120203076A1']",[],[],[]
+IN201911002734A,Patent IN201911002734A ,IN,2020-08-28,,,,,,S. Zode Sandeep,['WO2022231998A1'],[],['WO2022231998A1'],[],[],[]
+IN2014DN10248A,Patent IN2014DN10248A ,IN,2015-08-07,"Disclosed are a single-PDP dual- stack serial dialing method and system. A mobile terminal sets a single-PDP dual-stack serial dialing parameter according to a parameter setting command transmitted by a host; then the mobile terminal initiates a PDP activation request to a mobile communication network according to a first dialing instruction transmitted by the host and the configured single-PDP dual- stack serial dialing parameter, acquires the activation response information fed back by the mobile communication network, generates dialing response information according to the activation response information, and feeds back the dialing response information to the host, the fed back dialing response information containing cause reference information; after receiving the dialing response information, the host can, according to the cause reference information contained in the dialing response information, acquire the specific situation of the current mobile network, and determine a dialing mode, thus avoiding unnecessary dialing processing and dialing failure, preventing unnecessary dialing back to the dual PDP stack, simplifying the dialing process, and improving dialing efficiency and the utilization rate of system resources.",H04M3/02,"Calling substations, e.g. by ringing",,,Xiaolei Ding,"['US9198123B2', 'CN104219209A', 'CN104333608B', 'CN106302845B', 'CN111585852B']","['US20010027490A1', 'WO2006096557A2', 'WO2011018627A2', 'CN101997934A', 'US8855052B2', 'US20120182934A1', 'CN102421201B']","['US9198123B2', 'CN104219209A', 'CN104333608B', 'CN106302845B', 'CN111585852B', 'US20010027490A1', 'WO2006096557A2', 'WO2011018627A2', 'CN101997934A', 'US8855052B2', 'US20120182934A1', 'CN102421201B']","['CN104219209A', 'CN104333608B', 'CN106302845B', 'CN111585852B']","['CN101997934A', 'CN102421201B']","['CN104219209A', 'CN104333608B', 'CN106302845B', 'CN111585852B', 'CN101997934A', 'CN102421201B']"
+IN2013CN00326A,Patent IN2013CN00326A ,IN,2015-07-03,In a method for context based item bookmarking (300) an instruction to bookmark an item for future delivery and an action context configured to trigger delivery of the bookmarked item are received (304 and 306). In addition the action context and the item are bookmarked (308) and at least one entity s activities are monitored to determine whether an activity associated with the action context has been performed (310). Moreover in response to a determination that the activity associated with the action context has been performed the bookmarked item is delivered to at least one entity (314).,G06F16/20,"Information retrieval; Database structures therefor; File system structures therefor of structured data, e.g. relational data",,,Rajan Lukose,"['US20120158503A1', 'KR102062763B1', 'US10600296B2', 'US10810278B2', 'US11017430B2', 'US11269969B1']","['US6751777B2', 'IL134554A0', 'US7165220B1', 'JP3984425B2', 'ATE359651T1', 'EP1338982A1', 'US7987491B2', 'US20050222996A1', 'US8326658B1', 'US7783979B1', 'US20080024458A1', 'US7631007B2', 'JP5055468B2', 'US8402094B2', 'CN101192231B', 'US20080177858A1', 'US8087033B2', 'US8744990B2']","['US20120158503A1', 'KR102062763B1', 'US10600296B2', 'US10810278B2', 'US11017430B2', 'US11269969B1', 'US6751777B2', 'IL134554A0', 'US7165220B1', 'JP3984425B2', 'ATE359651T1', 'EP1338982A1', 'US7987491B2', 'US20050222996A1', 'US8326658B1', 'US7783979B1', 'US20080024458A1', 'US7631007B2', 'JP5055468B2', 'US8402094B2', 'CN101192231B', 'US20080177858A1', 'US8087033B2', 'US8744990B2']",[],['CN101192231B'],['CN101192231B']
+IN2015KO00749A,Patent IN2015KO00749A ,IN,2015-08-07,"The present invention relates to a smart interactive teaching aid having customized teaching information useful for improved learning capability. More specifically, the device helps the student in real-time scenarios by review, practice exams, educational games and other related activities that will automatically be recorded in the device for further preview. Further, the invention provides more interactive learning rather than routine knowledge dissemination using a smart & advanced interactive learning device.",,,,,Pani Dr Prajna,[],[],[],[],[],[]
+IN2012DN02453A,Patent IN2012DN02453A ,IN,2015-08-21,"Teachings presented herein offer reduced computational complexity for detecting a plurality of symbol blocks, even for symbol blocks that comprise the combination of a relatively large number of symbols The teachings perform two or more stages of detection assistance to successively reduce the number of candidate combinations of symbols to be considered for a symbol block when detecting the plurality of symbol blocks. In particular, the teachings identify a reduced set of candidate symbol combinations for at least one symbol block m the plurality of symbol blocks, and then jointly detect each of one or more distinct groups of symbols in the symbol block to determine from that reduced set a final reduced set of candidate symbol combinations. Detection of the plurality of symbol blocks limits the candidate combinations of symbols considered for a symbol block to the final reduced set of candidate symbol combinations identified for that symbol block.",,,,,Gregory E Bottomley,[],[],[],[],[],[]
+IN165115B,Patent IN165115B ,IN,1989-08-19,"A high speed processor (12) is disclosed for use in conjunction with a main processor (10) of a computer system. In the computer system, one program is being executed. The high speed processor executes certain selected instructions of the one program which are designated more frequently executed than the remaining instructions of the one program. The main processor executes the remaining instructions of the one program when the high speed processor is not executing the selected instructions. In addition, the high speed processor executes the selected instructions more rapidly than would be the case if the main processor were to execute the selected instructions. The high speed processor executes the selected instructions more rapidly due to the fact that it operates in an <<overlap execution mode>>. In this overlap mode, the high speed processor is preparing the next instruction for execution simultaneously with the execution of the current instruction. However, an address compare circuit (12c4) disposed within the high speed processor ensures that the execution of the current instruction is completed prior to the commencement of the execution of the next instruction. In addition, a special retry buffer (12c5) is provided in the event the execution of the instruction should be repeated. As a result of the utilization of the high speed processor in conjunction with the main processor for the execution of the instructions of one program, the instruction processing time is decreased by a factor of approximately forty (40) percent. Therefore, the performance of the computer system has been optimized.",G06F9/3877,"Concurrent instruction execution, e.g. pipeline or look ahead using a slave processor, e.g. coprocessor",,,Hong Ngai Chuck,"['US7197623B1', 'FR2678400B1', 'US6000026A']","['NL286251A', 'JPS52119137A', 'US4085450A', 'JPS5532118A', 'US4395758A', 'JPS5833975B2', 'JPS57212541A']","['US7197623B1', 'FR2678400B1', 'US6000026A', 'NL286251A', 'JPS52119137A', 'US4085450A', 'JPS5532118A', 'US4395758A', 'JPS5833975B2', 'JPS57212541A']",[],[],[]
+IN2015CH03743A,Patent IN2015CH03743A ,IN,2015-07-31,"This invention relates to the field of Information and Communication Technology. Aprocess and method where the status of each class like lecturer name, room number, topic covered, time when attendance taken, students absent etc be made available @ real-time (period wise) to all the stakeholders in the education space (viz, Principal, Staff, Students and Parents) either on their mobile phones or web or on any display screen. We call this as a 'Real-Time Campus Dashboard'. Our goal is to leverage mobile technology to bring in the much needed transparency and accountability in the education space to improve the quality of life.",,,,,S Talya Vidyadhara,[],[],[],[],[],[]
+IN143281B,Patent IN143281B ,IN,1977-10-29,,C07D207/273,"2-Pyrrolidones with hetero atoms or with carbon atoms having three bonds to hetero atoms with at the most one bond to halogen, e.g. ester or nitrile radicals, directly attached to other ring carbon atoms",,,Eugene Gordon Teach,"['AU527254B2', 'EP0055215B1', 'DK162087C', 'FI74385C', 'FR2589150B2', 'EP0205391B1', 'FR2582300B1', 'FR2625197B1', 'FR2634762B1', 'US5210305A', 'US5189220A', 'FR2634761B1', 'FR2643902B1', 'JPH02237970A', 'FR2663927A1', 'JP2728937B2', 'DE69128175T2', 'FR2665439B1', 'US5538985A', 'EP2052612A1', 'DE102008037629A1', 'CN114031536A', 'WO2023233367A1']",['JPS49134835A'],"['AU527254B2', 'EP0055215B1', 'DK162087C', 'FI74385C', 'FR2589150B2', 'EP0205391B1', 'FR2582300B1', 'FR2625197B1', 'FR2634762B1', 'US5210305A', 'US5189220A', 'FR2634761B1', 'FR2643902B1', 'JPH02237970A', 'FR2663927A1', 'JP2728937B2', 'DE69128175T2', 'FR2665439B1', 'US5538985A', 'EP2052612A1', 'DE102008037629A1', 'CN114031536A', 'WO2023233367A1', 'JPS49134835A']",['CN114031536A'],[],['CN114031536A']
+IN144916B,Patent IN144916B ,IN,1978-07-29,,C07C233/02,Carboxylic acid amides having carbon atoms of carboxamide groups bound to hydrogen atoms or to acyclic carbon atoms having nitrogen atoms of carboxamide groups bound to hydrogen atoms or to carbon atoms of unsubstituted hydrocarbon radicals,,,E Gaughan,"['JPS5762205A', 'HU183997B', 'JPS61270188A', 'JP4836070B2']","['CA1174865A', 'US4033756A']","['JPS5762205A', 'HU183997B', 'JPS61270188A', 'JP4836070B2', 'CA1174865A', 'US4033756A']",[],[],[]
+IN155857B,Patent IN155857B ,IN,1985-03-16,,,,,,Eugene Gordon Teach,[],[],[],[],[],[]
+IN151578B,Patent IN151578B ,IN,1983-05-28,,A01N33/06,Nitrogen directly attached to an aromatic ring system,,,E Teach,"['US4781752A', 'GB201800894D0']",[],"['US4781752A', 'GB201800894D0']",[],[],[]
+IN145421B,Patent IN145421B ,IN,1978-10-07,,C07F9/4075,Esters with hydroxyalkyl compounds,,,H Lam,"['GB2242078A', 'JP2546525Y2']","['DE1251304B', 'BE639481A', 'US3833600A', 'DE1812497C3', 'JPS5527882B1', 'BE789614A', 'US3966921A', 'DE2445555A1', 'US3984410A']","['GB2242078A', 'JP2546525Y2', 'DE1251304B', 'BE639481A', 'US3833600A', 'DE1812497C3', 'JPS5527882B1', 'BE789614A', 'US3966921A', 'DE2445555A1', 'US3984410A']",[],[],[]
+IN2012DN02461A,Patent IN2012DN02461A ,IN,2015-08-21,"The invention relates to a method and device (1) for securely transmitting data (D). To this end, a session concept is described, which uses cryptographic methods at the application level. While in conventional methods point-to-point connections can only be sufficiently secured at the transport level, according to the technical teaching provided integrity protection and confidentiality protection of data can now also be implemented at the application level. The method and the device (1) for securely transmitting data (D) are used in network technology. Fig: - 7",,,,,Steffen Fries,[],[],[],[],[],[]
+IN151496B,Patent IN151496B ,IN,1983-05-07,,,,,,Chamanlal Jagannath Shishoo,"['US9938300B2', 'US10351571B2', 'US10377767B2', 'US10377760B2', 'US10508098B2']",[],"['US9938300B2', 'US10351571B2', 'US10377767B2', 'US10377760B2', 'US10508098B2']",[],[],[]
+IN165455B,Patent IN165455B ,IN,1989-10-21,"1. A control device for an electromagnetic switchgear, which control device contains an operating coil (1) able to be connected to control voltage or able to be separated from this control voltage by way of a first switching element (2) in dependence on the height of the control voltage, and which control device has a hysteresis formation between the ON- and OFF- command, wherein the disconnecting state of the switching element (2) is maintained over a predetermined duration (T2), and the control device, after expiration of the internal OFF-command (9) having a predetermined duration (T1), delivers an OFF-instruction (13) with the predetermined duration (T2) to the switching element (2), characterised in that the OFF-instruction with the predetermined duration (T2) initiates a control time (T3) with a predetermined duration, until the expiration of which the switching element (2) is set finally to the OFF-instruction in the case of an OFF-command following a renewed ON-command.",H02H3/247,Emergency protective circuit arrangements for automatic disconnection directly responsive to an undesired change from normal electric working condition with or without subsequent reconnection ; integrated protection responsive to undervoltage or no-voltage having timing means,,,Werner Harbauer,"['DE3908192A1', 'DE19506525C1', 'CN1187156C', 'DE19948696A1', 'DE602006001847D1', 'US20130003246A1', 'EP2606502B1', 'EP2579285B1']","['US3541392A', 'US3757302A', 'GB1370942A', 'US4176388A']","['DE3908192A1', 'DE19506525C1', 'CN1187156C', 'DE19948696A1', 'DE602006001847D1', 'US20130003246A1', 'EP2606502B1', 'EP2579285B1', 'US3541392A', 'US3757302A', 'GB1370942A', 'US4176388A']",['CN1187156C'],[],['CN1187156C']
+IN2014CH00017A,Patent IN2014CH00017A ,IN,2015-07-10,"Abstract According to another aspect of the present disclosure, DBaaS may be effectively utilized achieving multi-tenancy, elastic scalability and access control. According to an aspect of the present disclosure, a large block of data may be retrieved from the client side, utilizing the Information retrieval algorithm. According to another aspect of the present disclosure, fit for purpose approach is demonstrated by providing an Education Solution that takes inputs from local educational institutions and utilizes the global best practices adopted by leading international universities.",,,,,Taj Nousheen,[],[],[],[],[],[]
+IN162444B,Patent IN162444B ,IN,1988-05-28,"1. Data processing system comprising at least, a microprocessor (1) with an ordinal counter (9) for addressing a ROM memory (5) containing the program, a dynamic type RAM memory requiring refreshments, and, a multiplexer (7) for the addresses in said RAM memory, the refreshing addresses being outputted by the ordinal counter and applied to the dynamic RAM memory via the multiplexer, characterized in that the program comprises a sequence of instruction codes corresponding to a sequence of consecutive reading addresses in the ROM memory, being periodically repeated by an indefinite loop, the period of said instruction codes being so selected as to be less than or equal to the minimum refreshment period.",G11C11/406,Management or control of the refreshing or charge-regeneration cycles,,,Jean Luc Pastre,"['EP1233419A3', 'US7010644B2']","['IT1117301B', 'JPS58192148A', 'JPS5924494A']","['EP1233419A3', 'US7010644B2', 'IT1117301B', 'JPS58192148A', 'JPS5924494A']",[],[],[]
+IN2013CH05066A,Patent IN2013CH05066A ,IN,2015-05-29,"[0020]	The invention provides an energy meter interface unit for use in a facility to interface with an energy meter. The energy meter interface unit comprises an energy meter interaction section to obtain at least one signal from the energy meter. Then, it includes a microcontroller logic section comprising instructions to process the at least one signal from the energy meter communication section to provide at least one processed signal. Further it comprises a communication section to send the at least one processed signal and receive at least one remote instruction. The energy interface unit of the invention also comprises a load disconnect relay section configured to act on at least one of: the at least one processed signal obtained from the microcontroller logic section, or the at least one remote instruction, or both.",,,,,Mcgowan Michael,[],[],[],[],[],[]
+IN2013CH04770A,Patent IN2013CH04770A ,IN,2015-04-24,"An intelligent, mechanized, and automated system (100) capable of interactive assistance to customers on functions related to a financial institution comprising a processor (204) and a guiding module (214) to detect presence of a customer in vicinity of the intelligent system (100) based on sensor data. The guiding module (214) instructs a mechanized unit (234) to keep the intelligent system (100) stationary unless given an instruction to move the intelligent system (100) to an area in proximity to the customer. An authentication module (216) authenticates the customer based on customer credentials received from the customer and authentication data (230). An instruction module (218) renders a list of one or more banking transactions to the customer and receives a customer selection indicating the at least one banking operation. Further, the intelligent system comprises an operations module (220) to perform the at least one banking operation based on the customer selection.",,,,,Arun Jain,[],[],[],[],[],[]
+IN2013CH00452A,Patent IN2013CH00452A ,IN,2015-07-31,The present invention discloses a method and apparatus for generating instructional videos for vehicle diagnosis and repair. The method according to the present invention can be used to generate video based instructions from an expert in a remote location. An expert at the remote location can transmit instructions for performing the diagnosis and repair to the workshop via a communication link. These instructions are received at the workshop and combined as an augmented data layer over the visual data captured at the workshop. The combination of the visual data and the instructions is stored in form of an instructional video for future use by mechanics.,,,,,Sunkari Vamsidhar,[],[],[],[],[],[]
+IN2015CH00993A,Patent IN2015CH00993A ,IN,2015-04-24,"A web browser (100) is provided. The web browser (100) may be configured to store instructions for each web-page for which customized interface is desired to be provided, and display customized interface based on the instruction specific to a web-page displayed by the web browser (100). Reference figure: FIG 5",,,,,Vimal Kumar VIVEKANANDAMOORTHY,[],[],[],[],[],[]
+IN2012DE02071A,Patent IN2012DE02071A ,IN,2015-08-14,"The present invention provides a widely applicable, efficient and green chemical process for the synthesis of ß-hydroxy aryl ethers by the reaction of phenol with epoxide in the presence of metal nanoparticles as catalysts. The process of the present invention, which involves metal nanoparticle catalysed epoxide ring opening by phenols can be extended to a broad range of drugs with varied applications like treatment of cold and cough, as muscle relaxants, as cardiovascular drugs.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2012DE00731A,Patent IN2012DE00731A ,IN,2015-08-21,The present invention envisages the development of Curcumin-Drug conjugates with an aim of improving the bioavailability of Curcumin with simultaneous synergistic activity and possible decrease in dose and the toxicity of conjugating drug.,,,,,Kumar Jain Sandeep,[],[],[],[],[],[]
+IN2013DE03500A,Patent IN2013DE03500A ,IN,2015-06-12,"The present invention provides an improved, eco-friendly and catalyst free process for selective synthesis of xanthenes-1,8(2H)-diones and analogues thereof of the general formula (A) from the cyclocondensation of aldehyde (I) with 1,3 diketone (II) in under milder reaction conditions",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013DE03558A,Patent IN2013DE03558A ,IN,2015-06-12,"The present invention relates to the design and development of a suitable nanocarrier capable of improving the oral bioavailability of various difficult-to-deliver drugs such as anticancer agents, polyene antibiotics, antioxidants categorized as BCS class II, III or IV. More importantly, the developed LCNPs were lyophilized using step wise freeze drying cycle for improving the long term stability. The invention relates to the design and development of a suitable nanocarrier capable of improving the oral bioavailability of various difficult-to-deliver drugs such as anticancer agents, polyene antibiotics, antioxidants categorized as BCS class II, III or IV. Particularly, the developed nanocarrier system, i.e. Liquid crystalline nanoparticles (LCNPs) is suitable for oral route of administration, poses enhanced stability in simulated gastrointestinal fluids, long term stability at accelerated conditions of temperature and humidity as per ICH guidelines, increased oral bioavailability, therapeutic efficacy and safety profile as compared to clinical formulations",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013DE03832A,Patent IN2013DE03832A ,IN,2015-07-03,The present invention relates to a solar tracking system. More particularly the present invention relates to a self-positioning solar tracking system using sequenced latching that uses small perturbation techniques. The system includes a solar panel mounted over a rectangular frame. The system may further include a plurality of photodiodes comprising a first photodiode for the flow of current in control circuit of the system and a second photodiode to keep the frame perpendicular to the sun. The system may further include a plurality of lead screw motors arranged at center of the four edges of the frame in order to move the frame keeping the frame perpendicular to the sun.,,,,,Kumar Nandy Biplob,[],[],[],[],[],[]
+IN2014CH00002A,Patent IN2014CH00002A ,IN,2015-07-03,"According to an aspect of the present disclosure, the electronic controlling system is designed and developed to control areca leaf nut pressing machine. The control system is designed to get the molds at a desired temperature and time set by the operator. The control system is capable to maintain customized temperature and time required for the pressing process. On the other hand, the control unit provides input switches for operators to set required time, temperature and a LCD display system for reference. According to yet another aspect of present invention, the automation control system includes sensing and controlling of mould temperature by the control unit and pressing the leaves for the required time. According to yet another aspect of present invention, the automation includes opening and closing of upper mould as per the process requirement using geared DC motor.",,,,,Raveesh S,[],[],[],[],[],[]
+IN2013MU02437A,Patent IN2013MU02437A ,IN,2015-06-19,"Abstract: Disclosed herein is a cost-effective, environmentally benign, one pot catalytic process for synthesis of a, ß-unsaturated carboxylic acids (2) and esters (2') with high E-stereoselectivity from derivatives of cyclic 1, 3-diesters (Meldrum’s esters) (1) using a highly efficient catalytic protocols containing FeCl3.6H2O (cat.), H2O (1 equiv.) and FeCl3.6H2O (cat.), alcohol (R2-OH, 1 equiv.) in CH3NO2 respectively under microwave irradiation as well as under conventional heating conditions with better turnover number (TON) and turnover frequency (TOF) values.",,,,,Ramakrishna Gopalkrishna Bhat,[],[],[],[],[],[]
+IN2014CH00016A,Patent IN2014CH00016A ,IN,2015-07-10,"To avoid drawbacks like addition of payload, to increase robustness against re-encoding and some common watermarking attacks and to provide a more efficient H.264 compression domain watermarking, a new watermarking scheme is introduced. A new watermark embedding and extraction method is introduced where one ac co-efficient of one macroblock is modified to embed a single watermark bit. The watermark is a readable watermark in the quantized ac coefficients of I frames wherein the original video is necessary to calculate the parameter of visual model enhancing the security of the watermark considerably. It is shown that video quality degradation is comparatively less and better than previously available.",,,,,B Sathisha,[],[],[],[],[],[]
+IN2014DE00010A,Patent IN2014DE00010A ,IN,2015-07-10,"The present invention provides a novel solid self-emulsifying formulation comprising tamoxifen in combination with antioxidant such as quercetin, a solid carrier, an oily phase, a surfactant and a co-surfactant. The developed formulation showed enhanced oral bioavailability, improved breast tumor efficacy and reduced the hepatotoxicity.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2014CH00209A,Patent IN2014CH00209A ,IN,2015-07-31,,,,,,Suresh R,[],[],[],[],[],[]
+IN2014DE00338A,Patent IN2014DE00338A ,IN,2015-08-07,"The present invention provides an improved catalytic process for the synthesis of dibenzo[1,3]diazepines by coupling of amines with aldehydes in the presence of metal nanoparticles as catalyst. The process has certain advantages as this method involves a single step preparation, fast reaction rate, clean reaction with high product yield and also the method has advantage of reusability of the catalytic system.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2015KO00989A,Patent IN2015KO00989A ,IN,2015-09-25,"This invention relates to a process of preparing oxide thin film from sol gel solution on different substrates and in particular, this invention relates to a process of preparing oxide thin film wherein single dip and uniform coating is needed to grow a thin film. More particularly, this present invention relates to an apparatus for preparing oxide thin film. Furthermore, this invention also relates to an apparatus for preparing oxide thin film by thermo-magnetic chemically wet and dry (CWD) technique i.e. in-situ thermal annealing facility in presence of magnetic field for spintrOnics/optoelectronics and different sensor applications.",,,,,Kumar Kamilla Dr Sushanta,[],[],[],[],[],[]
+IN2013MU02513A,Patent IN2013MU02513A ,IN,2015-06-19,ABSTRACT: Disclosed herein is a process for separation of Semiconducting and Metallic Single Walled Carbon Nanotubes by optical excitations. The process of the present invention is devoid of chemical modification or physical process.,,,,,Harsh Chaturvedi,[],[],[],[],[],[]
+IN2014DN08509A,Patent IN2014DN08509A ,IN,2015-05-15,To configure a medical image display device which displays three dimensional medical images of a subject and additional information images representing information to be added to the three dimensional medical images in such a manner that the additional information images are displayed in a desired color and the additional information images and three dimensional medical images are clearly distinguished. [Solution] This medical image display device is provided with: a medical image acquisition means (11) for acquiring three dimensional images of a subject; a display control means (12) for displaying the three dimensional medical images acquired by the medical image acquisition means and additional information images representing information to be added to the three dimensional medical images; and an additional information display instruction receiving means (13) for receiving instructions for displaying the additional information images in relation to the three dimensional medical images. The display control means (12) displays the additional information images in relation to the three dimensional medical images when an instruction to display the additional information images is received and changes the color of the currently displayed three dimensional medical images to a color that can be distinguished from the color of the additional information images.,G16H30/40,"ICT specially adapted for the handling or processing of medical images for processing medical images, e.g. editing",,,Futoshi Sakuragi,[],"['JPH0333986A', 'JPH07213522A', 'JP2001149366A', 'JP4748843B2', 'JP4133319B2', 'US7002980B1', 'US7155043B2', 'JP2003265416A', 'JP2004089599A', 'JP4385707B2', 'US7184063B2', 'US7394053B2', 'JP2008521462A', 'CN101160104B', 'US8303505B2', 'JP5036368B2', 'CN102172330B', 'JP5319180B2', 'US20090310846A1', 'JP2010131315A', 'US8611629B2', 'JP4717935B2', 'JP5572470B2']","['JPH0333986A', 'JPH07213522A', 'JP2001149366A', 'JP4748843B2', 'JP4133319B2', 'US7002980B1', 'US7155043B2', 'JP2003265416A', 'JP2004089599A', 'JP4385707B2', 'US7184063B2', 'US7394053B2', 'JP2008521462A', 'CN101160104B', 'US8303505B2', 'JP5036368B2', 'CN102172330B', 'JP5319180B2', 'US20090310846A1', 'JP2010131315A', 'US8611629B2', 'JP4717935B2', 'JP5572470B2']",[],"['CN101160104B', 'CN102172330B']","['CN101160104B', 'CN102172330B']"
+IN2013DE00762A,Patent IN2013DE00762A ,IN,2015-06-26,"The present invention relates to an oral self-emulsifying formulation comprising CyA and Vitamin E TPGS as an antioxidant. The present invention formulation provides enhance oral bioavailability and reduced nephrotoxicity induced by CyA. The formulation provides 4.46 times oral bioavailability compared with free CyA and 1.46 times compared to marketed CyA formulation (Bioral®). The present formulation is easy to prepare, cheap, stable at accelerated stability and freeze thaw conditions. Also, the formulation provides high level of manufacturing scalability and industrial adaptability.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013CH05060A,Patent IN2013CH05060A ,IN,2015-05-29,"Abstract According to an aspect of the present disclosure, the successful storage and retrieval of the data is achieved with high reliability in terms of higher level of security of IDA with AONT-RS encoding. Along with this AONT-RS encoding it also ensured that this level of security is achieved with lower additional requirement of computational and storage costs, as shown in the data storage requirement, which is less than twice the size of the original data. This method with the apparatus used also ensures data storage is reliable in case of server unavailability and failure scenario. Also, demonstrated that the higher security on the data stored or dispersal is achieved without relying on encryption keys, which, otherwise need to be stored and retrieved explicit to the method and apparatus in use.",,,,,R Prasanna Kumar K,[],[],[],[],[],[]
+IN2013DE00226A,Patent IN2013DE00226A ,IN,2015-06-19,The present invention relates to the field of chemical science and specifically this invention provides the eco-friendly approach for the synthesis of tetrahydropyridines (THPs) via multi component approach. The catalytic application of sodium dioctyl sulfosuccinate (SDOSS) in an aqueous media has been demonstrated by exploring efficient and green approach for acquiring functionalized piperidine under environment friendly milder reaction condition.,,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013CH05061A,Patent IN2013CH05061A ,IN,2015-05-29,,,,,,V Sreenivas Rao K,[],[],[],[],[],[]
+IN2013DE00680A,Patent IN2013DE00680A ,IN,2015-06-26,"The present invention provides a nanoformulation comprising folic acid functionalized liquid crystalline nanoparticles for delivery of anti-cancer agents and a process for preparing the same. The LCNPs were prepared by hydrotrope method with suitable co-solvent and a biphasic drug release pattern was observed from developed formulation. The developed nanoformulation resulted in increased antitumor efficacy, longer circulation half-life and higher safety profile for Docetaxel, a model anti-cancer agent.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013CH04808A,Patent IN2013CH04808A ,IN,2015-09-18,"The wearable device comprises a plurality of sensors, a microprocessor, a wireless communication module and a miniature power supply. The plurality of sensors comprises a galvanic skin response (GSR) sensor and a pulse sensor. The galvanic skin response (GSR) sensor comprises a resistance measurement circuit, a low pass RC filter, a pair of electrodes and a conductive gel. The resistance measurement circuit is a Wheatstone bridge circuit with the three arms of known resistance and a fourth arm is kept open. The pair of electrodes with skin contact acts as resistor in the fourth arm. The pulse sensor comprises a pair of light emitting diodes and a pair of light collecting sensors. The plurality of sensors is connected to the microprocessor. The wireless communication module receives data from the microprocessor, encodes it and transmits it to a remote computing device.",,,,,Niranjan Krupa Dr B,[],[],[],[],[],[]
+IN2013CH04734A,Patent IN2013CH04734A ,IN,2015-04-24,"ABSTRACT According to an aspect of the present disclosure, alcohol sensor is configured in a vehicle to sense the alcohol content of the driver. The metal sensor is used along with alcohol sensor to detect the presence of key inside the vehicle. Also, whenever, metal sensor, alcohol sensor senses the key and the alcohol, a microcontroller displays a message on a screen. According to another aspect of the present disclosure, when alcohol content is detected, the microcontroller turns OFF the vehicle ignition. Also, the buzzer is turned ON, to alert the driver. According to the yet another aspect to the present disclosure, the GPS module is used as a receiver to locate the position of the vehicle. On the other hand, the GSM modem sends a message to a set of pre-specified contacts. According to yet another aspect of the present invention, the microcontroller turns ON the fore indicator, back indicator, parking lights etc.",,,,,N Shashikala B,[],[],[],[],[],[]
+IN2013CH04733A,Patent IN2013CH04733A ,IN,2015-04-24,"ABSTRACT According to an aspect of the present disclosure, present location of a mobile device is extracted which adds to the tracking thereof. According to another aspect of the present disclosure, an embodiment is proposed to communicate and extract the location information from the mobile device comprising a GSM module, a microcontroller, a computer with interface and I/O devices. According to another aspect of the present disclosure GSM module is made use to communicate with the mobile device. According to another aspect of the present disclosure, a secured access is ensured to the embodiment using the concept of speech recognition where a spoken word in the database is used as a password. According to another aspect of the present disclosure, an application is developed and installed on the mobile device that collects the location information from the device.",,,,,N Swetha,[],[],[],[],[],[]
+IN2013CH04735A,Patent IN2013CH04735A ,IN,2015-07-31,"ABSTRACT According to an aspect of the present disclosure, an apparatus in the form of section of a pipe is used. Water is used as a liquid in the pipe. An injector pipe of comparably smaller diameter smaller diameter is connected tangentially to this pipe with respect to its radial cross-section. Forced exit of the water in the generator pipe into the container formed by the pipe results in creation of uniform circular motion into the column of water with-in it. This continuous force builds up a strong vertex at the open end of the pipe with higher suction rate or draw towards its cavity. Conventionally, applying rotational force at open ended surface itself creates a vortex. Two of these types of vortex generators are combined together in a mutually aiding direction. The resulting vortex has higher efficiency and resulting in with deeper cavity and suction force. In one embodiment, this mechanism is used to draw the objects, materials and/or contents out of the commode.",,,,,Gangadharaiah T,[],[],[],[],[],[]
+IN2013DE01819A,Patent IN2013DE01819A ,IN,2015-06-26,"A multipurpose dental patient drape has been proposed for expediting work in the operative by facilitating the work of dentist, dental-chair assistant as well as patient. The present invention proposes a patient drape having one or more means to hold dental instruments/equipment required during a clinical dentistry procedure. The drape also has a means at the distal end of the drape away from the hands of the dentist and the dental assistant for placing the patient’s personal belongings like mobile phone, car keys, sun-glasses etc. The drape proposed by the present invention augments clinical working environment in a sit-down or four-handed dental practice and thus expedites the working in the operative field for dentist, dental chair-side assistant and the patient.",,,,,Harpinder Singh Chawla,[],[],[],[],[],[]
+IN2013CH04607A,Patent IN2013CH04607A ,IN,2015-07-31,"ABSTRACT According to an aspect of the present disclosure, mechanical way of deploying a drag sail is proposed. According to another aspect of the present disclosure, telescope support structure (TSS) is used to provide stiffness or stiffness to the sail embodiment. Several embodiments are described below, with reference to diagrams of illustration. It should be understood that numerous specific details are set forth to provide a full understanding of the invention. One skilled in the relevant art, however, will readily recognize that embodiments may be practiced without one or more of the specific details, or with other methods, etc. In other instances, well-known structures or operations are not shown in detail to avoid obscuring the features of the invention.",,,,,shashank B,[],[],[],[],[],[]
+IN2013CH04517A,Patent IN2013CH04517A ,IN,2015-04-10,"Biscuits for health promotion, skill development and behaviour modification in autism were specially formulated with beneficial functional food ingredients and developed as a food supplement to address the problems of the autistic children. This biscuit has been designed to be gluten free, casein free, sugar free and additive free to be conducive for the development of the autistic children. The specific food ingredients present in the biscuit were aimed at producing improvement in their nutritional status, alleviate their atypical behaviours and enhance their functional skills. Nutritional status of the children was enhanced with better immunoglobulin levels. A significant improvement (p<0.05) was observed in the behaviour pattern and the functional skills of the autistic children who received the nutritional supplement in the form of biscuits. This food supplement could be used as an alternative therapy for the improvement of children with autism disability. It needs to be patented since it has a prospective market value.",,,,,V Alli Dr M,[],[],[],[],[],[]
+IN163001B,Patent IN163001B ,IN,1988-07-30,,,,,,Mohan Rao Yelakanti,[],[],[],[],[],[]
+IN2013CH05438A,Patent IN2013CH05438A ,IN,2015-05-29,"In one embodiment of the present disclosure, a control system is designed to control flame in a gas stove. The control system is consisting of a microcontroller/microprocessor to control its peripherals and the peripherals may include a GSM module, a stepper motor, a load cell, a gas sensor, a database, an input device and an output device. In another embodiment of the present disclosure, the GSM module enables to control the gas stove using a mobile device. According to an aspect of the present disclosure, the microcontroller is configured to provide three modes of operation such as automatic mode, auto-intelligent mode and remote controlled mode. According to another aspect of the present disclosure, auto-intelligent mode supports pre configured cooking timings which are stored in the database.",,,,,N Shashikala B,[],[],[],[],[],[]
+IN2012DE00955A,Patent IN2012DE00955A ,IN,2015-09-11,The present invention provides ß-carboline compounds. The present invention also provides of method of preparing ß-carboline compound of formula and their use as potent anti-leishmanial agent. A series of ß-carboline-compounds were synthesized and tested in vitro against promastigotes of Leishmania donovani. The synthesized compounds show promising anti-leishmanial activity,,,,,Gohil Vikrantsingh,[],[],[],[],[],[]
+IN2013DE00378A,Patent IN2013DE00378A ,IN,2015-06-19,"The present invention provides a method for the generation of novel random gene libraries sequences in the size range of 200-30,000 base pairs without a DNA template, using a novel 25-base single stranded oligonucleotide. The sizes obtained in the present invention are 10-100 folds higher than those described in prior art.",,,,,Mohan Utpal,[],[],[],[],[],[]
+IN2013MU00922A,Patent IN2013MU00922A ,IN,2015-06-05,Disclosed herein is a product composed of natural essential oils or aroma chemicals and polymers useful for reducing the malodour of garbage and to simultaneously degrades the waste. The product of the invention masks the malodour and simultaneously degrades the waste which can be seen in the form of reduction in the mass of the product.,,,,,Renuka Thergaonkar,[],[],[],[],[],[]
+IN2013MU01341A,Patent IN2013MU01341A ,IN,2015-04-10,The present invention relates to an orally disintegrating tablet comprising a therapeutically effective amount of methylxanthine derivative provided in a sustained release dosage form and a therapeutically effective amount of an antihistamine selected from second generation and third-generation histamine HI receptor antagonist in an immediate release form The invention also provides process of preparation of orally disintegrating tablet.,,,,,Supriya Dr Shidhaye,[],[],[],[],[],[]
+IN2013DE01177A,Patent IN2013DE01177A ,IN,2015-06-26,"The present invention is directed to an improved catalytic process for the synthesis of dihydrobenzothiazepine by the cyclocondensation of ?, ? unsaturated carbonyl compound with o-aminothiophenol in the presence of catalytic amount of ionic liquid as an organo catalyst which does not necessitate any oxidizing agent as well as additional organic solvent as a reaction media.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013CH02586A,Patent IN2013CH02586A ,IN,2015-10-02,"1. A monosaccharide compound of the general formula 1 wherein 'm' is from 1 to 3, 'x'isOH, SH, orNH2, alkyne motif can be at any carbon (C i to C 6 ) on the sugar scaffold , sugar can be a pentose sugar or hexose sugar and can be in in furanose or pyranose form 2. A polysaccharide compound of the general formula 2 comprising repeating units of formula 1 as claimed in claim 1 wherein 'm' is from 1 to 3, 'n' is the number of repeating units and is from 2 to about 5,000., 'x' is OH, SH or NH2, alkyne motif can be at any carbon (C 1 to C 6 ) on the sugar scaffold. 3. A polysaccharide compound as claimed in claim 2, wherein the polysaccharide is preferably 1,4-triazolyl-linked polygalactose .",,,,,Meethaleveetil Sureshan Kana,[],[],[],[],[],[]
+IN158107B,Patent IN158107B ,IN,1986-09-06,"An elongated fluid distributing hose (10) for use in an irrigation system for plants, vegetables and the like. The hose incorporates a particular arrangement of a main supply channel (12) for gross water movement, and a water distributing network for fine water movement. Water pressure reduction takes place in the water distributing network at the point of the passing of the water from the high pressure main supply channel through a series of first fluid-passing openings or inlet stations (36) through one or more smaller fluid-restricting passages (18,19,20). In certain embodiments , a straucture is provided to perform a pressure regulating function in each of the smaller passages . In one embodiment, pressure reduction between an inlet and an outlet is by way of a serpentine fluid-restricting path. A novel method and machine are employed to manufacture the various hoses embodying the teachings of the subject invention. <IMAGE>",B29C65/40,"Applying molten plastics, e.g. hot melt",,,Richard Dexter Chapin,"['US4702787A', 'GB2187622B', 'CH678476A5', 'DE3708177C1', 'ZA873956B', 'IL95972A', 'GR1001357B', 'US5333793A', 'US5620143A', 'US20110094154A1', 'CN102430488B', 'CN102513230B', 'CN102490359B', 'CN109258410B', 'US11497178B2', 'CN111903442B', 'CN114680022B']","['US3873030A', 'US3874598A', 'ZA754678B', 'IL54344A', 'US4199106A', 'IT1088649B', 'GB1596233A', 'US4210477A', 'US4247051A']","['US4702787A', 'GB2187622B', 'CH678476A5', 'DE3708177C1', 'ZA873956B', 'IL95972A', 'GR1001357B', 'US5333793A', 'US5620143A', 'US20110094154A1', 'CN102430488B', 'CN102513230B', 'CN102490359B', 'CN109258410B', 'US11497178B2', 'CN111903442B', 'CN114680022B', 'US3873030A', 'US3874598A', 'ZA754678B', 'IL54344A', 'US4199106A', 'IT1088649B', 'GB1596233A', 'US4210477A', 'US4247051A']","['ZA873956B', 'CN102430488B', 'CN102513230B', 'CN102490359B', 'CN109258410B', 'CN111903442B', 'CN114680022B']",['ZA754678B'],"['ZA873956B', 'CN102430488B', 'CN102513230B', 'CN102490359B', 'CN109258410B', 'CN111903442B', 'CN114680022B', 'ZA754678B']"
+IN2013CH04960A,Patent IN2013CH04960A ,IN,2015-05-29,"A wireless surgical loupe enables a user to use the wireless loupe to perform a procedure, transmit information acquired by the wireless loupe and display patient information on a wireless loupe display. The transmitted information is able to be used to aid the operating room procedure, enhance education and be recorded for later use.",,,,,Corporation Sony,[],[],[],[],[],[]
+IN2015DE03387A,Patent IN2015DE03387A ,IN,2017-04-28,,,,,,Unknown,[],[],[],[],[],[]
+IN2013MU02501A,Patent IN2013MU02501A ,IN,2015-08-07,"The present invention discloses a healthcare management system comprising a data collection and access module capable of collecting, storing data into customizable format and providing access to the data to users; an audio and visual conferencing module capable of facilitating audio and visual conferencing amongst the users; a note capturing module capable of facilitating dictation and exchange of online instruction and notes; a criti-care transition module capable of providing real-time medical care to a user, while in transit; and a data management module capable of managing data, its type, data exchange, management, synchronization and sharing through a pre-defined Standard Operating Protocol.",,,,,Thaker Dr Udgeeth,[],[],[],[],[],[]
+IN2013MU02014A,Patent IN2013MU02014A ,IN,2015-06-05,"A media peripheral interface for communication between a processor and a peripheral device includes a clock port, a plurality of data I/Os, and a data strobe port. The clock port is operative to transfer a clock signal to the peripheral device. The data I/Os are provided for command transfer to the peripheral device and for data transfer to and from the peripheral device. The data strobe port is operative to transfer a data strobe signal to or from the peripheral device according to an instruction that the processor issues to the peripheral device. According to the clock signal, command information transferred via the data I/Os is captured. According to rising edges and falling edges of the data strobe signal, data transferred via the data I/Os are captured.",,,,,Chen Tsung-Huang,[],[],[],[],[],[]
+IN2014DE02135A,Patent IN2014DE02135A ,IN,2015-07-17,"The present invention discloses system and method for providing nest ID based identification of Geographical location. The system comprises a user device, a transceiving unit, and a remote server. The user device determines one or more location coordinates of one or more geographical locations. The user device is configured to assign a nest ID to the determined location coordinate. The transceiving unit is configured in the user device for providing wireless communication. The remote server is wirelessly connected to the user device through the transceiving unit for executing at least one instruction. The present invention also discloses a method of providing nest ID based identification of a Geographical Location. The method comprises determining at least one location coordinate of at least one geographical location, assigning a nest ID to the at least one determined location coordinate, and storing the at least one location coordinate with assigned nest ID in at least one of a user device and a remote server. Figure 2",,,,,Jasdeep SINGH,[],[],[],[],[],[]
+IN2014MU01336A,Patent IN2014MU01336A ,IN,2015-10-16,"ABSTRACT The lack of semantics and personalization of web based e-Learning system is a most focused research area of today’s era. Social networking plays a vital role in the information sharing and knowledge distribution. Implementation of social networking concept to improve the e-learning system is very challenging aspect of today’s researcher. Social networking includes various online forums, blogs, social bookmarking, mobile and researcher’s social networking sits. The present invention relates to a system framework and methods is for providing e-learning, also referred to in the art, as computer based training, computer assisted instruction and technology supported learning, are known. Such applications and systems use content, for example, lectures textual notes, video and book chapters, which are delivered to users electronically. In order to describe the e-learning content, framework is associated with the content. Ontology based standards is one technology, which is conventionally used to define the relationships between entities on a conceptual level. Following invention is described in detail with the help of Figure 1 of sheet 1showsthe Generalize e-Learning Web Personalization Framework.",,,,,Gopal S Sakarkar Mr,[],[],[],[],[],[]
+IN2014MU01136A,Patent IN2014MU01136A ,IN,2015-10-02,"Disclosed is a biometric authentication for access to assemblies inside a switchboard. In one implementation, a system and method for biometric authentication for access to assemblies inside a switchboard and to change the trip settings of the circuit breakers inside along with low zone protection is disclosed. The method comprises of scanning at least one users’ biometric credentials (106) upon receiving at least one instruction from said at least one user related to threshold settings; and providing, by a microcontroller (102) of a circuit breaker (100) an access to said threshold settings upon matching said scanned at least one users’ biometric credentials (106’) with at least one biometric credentials (106) pre-stored.",,,,,Ameya Mungi,[],[],[],[],[],[]
+IN155484B,Patent IN155484B ,IN,1985-02-09,,C12N7/00,Viruses; Bacteriophages; Compositions thereof; Preparation or purification thereof,,,Jose Leonardo Latorre,"['US5458889A', 'DE4211108A1', 'WO1996000504A1', 'SI3244920T1']",['GB894623A'],"['US5458889A', 'DE4211108A1', 'WO1996000504A1', 'SI3244920T1', 'GB894623A']",[],[],[]
+IN138121B,Patent IN138121B ,IN,1975-12-20,,,,,,Unknown,[],[],[],[],[],[]
+IN2014DN05011A,Patent IN2014DN05011A ,IN,2015-07-10,The present invention provides for methods and materials for diagnosing and treating neuromyelitis optica (NMO) and related disorders.,C07K16/18,"Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans",,,Vanda A Lennon,"['US7101679B2', 'US20070093673A1', 'JP4273235B2', 'US8889102B2', 'JP5117336B2', 'US9891219B2', 'GR1007341B', 'WO2011142901A1', 'DE102011011280A1', 'EP2699256B1', 'WO2013010003A1', 'US20140371132A1', 'JP6265119B2', 'WO2013177116A1', 'CN102898513B', 'US9588115B2', 'US20170080063A1', 'WO2016001030A1', 'CN104698190A', 'US10098935B2', 'WO2017197293A1', 'CN106318974A', 'KR101977843B1', 'WO2018190365A1', 'KR102089042B1', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']","['US37273A', 'US4708713A', 'US5258503A', 'US5614192A', 'US5214136A', 'US5218105A', 'US5741671A', 'US5324638A', 'DE4227695C1', 'US5676644A', 'WO1997017369A2', 'CA2352167A1', 'US20040014087A1', 'US6409726B1', 'US20030072737A1', 'US20040048253A1', 'US7251568B2', 'US6905827B2', 'US7026121B1', 'US20040115629A1', 'ATE336808T1', 'US7101679B2']","['US7101679B2', 'US20070093673A1', 'JP4273235B2', 'US8889102B2', 'JP5117336B2', 'US9891219B2', 'GR1007341B', 'WO2011142901A1', 'DE102011011280A1', 'EP2699256B1', 'WO2013010003A1', 'US20140371132A1', 'JP6265119B2', 'WO2013177116A1', 'CN102898513B', 'US9588115B2', 'US20170080063A1', 'WO2016001030A1', 'CN104698190A', 'US10098935B2', 'WO2017197293A1', 'CN106318974A', 'KR101977843B1', 'WO2018190365A1', 'KR102089042B1', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B', 'US37273A', 'US4708713A', 'US5258503A', 'US5614192A', 'US5214136A', 'US5218105A', 'US5741671A', 'US5324638A', 'DE4227695C1', 'US5676644A', 'WO1997017369A2', 'CA2352167A1', 'US20040014087A1', 'US6409726B1', 'US20030072737A1', 'US20040048253A1', 'US7251568B2', 'US6905827B2', 'US7026121B1', 'US20040115629A1', 'ATE336808T1', 'US7101679B2']","['CN102898513B', 'CN104698190A', 'CN106318974A', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']",[],"['CN102898513B', 'CN104698190A', 'CN106318974A', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']"
+IN2015CH04082A,Patent IN2015CH04082A ,IN,2015-09-25,"Learning is a two step process. So, as much as theoretical knowledge is important, knowledge about the practical implementation is also emphasized upon. And a very good example of this can be seen in the curriculum of the bachelor's degree program of our education system. Every student has to do at least one project either from their respective institutions or in collaboration with some external organization. Also, every student is assigned an internal project guide who supervises the project. A project is not a one man job. So, every project consists of at least two members, supervised by the same internal guide. Now, if these students do their project from an external organization, then balancing between the institution and the organization becomes hectic. This is where Project Feedback Management System comes into play. We have devised an automated web based application to facilitate the communication and feedback about the project between the students, and their respective internal guides. Our system has different functionalities which facilitates the interaction between the students and their internal guides. It provides different functionalities based on the type of user logged in. If the logged user is an internal guide, functionalities such as logging of a feedback, reviewing of a particular task, etc. At the same time if the logged user is a student, the functionalities are restricted to just viewing the task and clarifying their doubts.",,,,,Kumar Abhineet,[],[],[],[],[],[]
+IN2012DE00161A,Patent IN2012DE00161A ,IN,2015-06-12,"Robotic Total Stations (RTS) with Geodimeter Control Unit (GCU) are preprogrammed only for few surveying applications. Moreover they don't facilitate online data and command transfer. An interface to connect RTS with Computer System is designed in the research work presented here for online data and command transfer between them. Instructions of ""Core Instruction Set for Interface (CISI)"" can be embedded in application programs of some High Level Language (HLL) such that layouts of the user screens will be designed in HLL and Robotic applications of RTS will be controlled using instructions of CISI.applications of RTS will be controlled using instructions of CISI.",,,,,Jain Dr Kamal,[],[],[],[],[],[]
+IN153257B,Patent IN153257B ,IN,1984-06-23,,,,,,Ved Ratna,[],[],[],[],[],[]
+IN153334B,Patent IN153334B ,IN,1984-06-30,,,,,,Ratna Ved,[],[],[],[],[],[]
+IN192069B,Patent IN192069B ,IN,2004-02-14,,,,,,Shilpi Mittal,[],[],[],[],[],[]
+IN153335B,Patent IN153335B ,IN,1984-06-30,,,,,,Ved Ratna,[],[],[],[],[],[]
+IN180023B,Patent IN180023B ,IN,1998-01-10,,,,,,Lodewyk Jacobus Mienie,[],[],[],[],[],[]
+IN2015DN03798A,Patent IN2015DN03798A ,IN,2015-10-02,A method for shifting an original call established between a first user device (1) and at least a correspondent device (2) through a first application server (3) in order to route it through a second application server (4) the method comprising instructing the first application server (1) to forward the original call through the second application server (4) to the first user device (1) upon receiving the application server shift instruction the first application server being instructed to establish a three way conference communication between the first user device (1) the correspondent device (2) and the second application server (4) in order to forward the original call from the first application server (3) to the second application server (4); determining that an incoming call routed from the second application server (4) to the first user device (1) has an identification information matches identification information of the original call; causing the first user device (1) to pick up the incoming call routed from the second application server (4) to the first user device (1) and instructing to release the call branch between the first application server (3) and the first user device (1) upon determining that the identification information matches.,H04M3/56,"Arrangements for connecting several subscribers to a common circuit, i.e. affording conference facilities",,,Chakra Rabih Abou,[],"['US5867494A', 'US6826272B1', 'US7548763B2', 'US7457638B2', 'US7912039B1', 'US20080201158A1', 'US8774387B2', 'CN101420669B', 'WO2009082297A1', 'US20090168985A1', 'JP4868608B2', 'US20110003579A1', 'US20100041398A1', 'FR2935858B1', 'US8305890B2', 'TWI419541B', 'US8489386B2', 'US8358757B2', 'JP2011049687A', 'US8428559B2', 'US8903064B2', 'CN102137080B']","['US5867494A', 'US6826272B1', 'US7548763B2', 'US7457638B2', 'US7912039B1', 'US20080201158A1', 'US8774387B2', 'CN101420669B', 'WO2009082297A1', 'US20090168985A1', 'JP4868608B2', 'US20110003579A1', 'US20100041398A1', 'FR2935858B1', 'US8305890B2', 'TWI419541B', 'US8489386B2', 'US8358757B2', 'JP2011049687A', 'US8428559B2', 'US8903064B2', 'CN102137080B']",[],"['CN101420669B', 'CN102137080B']","['CN101420669B', 'CN102137080B']"
+IN2012DN02001A,Patent IN2012DN02001A ,IN,2015-07-24,"A device is provided having a local oscillator (LO) configured to generate a first signal having timing information, frequency information, phase information or combinations thereof. The device also includes a prioritizer comprising at least two inputs, each input configured to receive a respective second signal having timing information, frequency information, phase information or combinations thereof. The prioritizer is configured to determine an accuracy of at least one second signal of the at least two second signals in relation to a second signal assigned to be a most accurate of the at least two second signals. The prioritizer is also configured to order the at least two second signals from most accurate to least accurate. The LO is disciplined to correct an offset error of the LO relative to a most accurate second signal that is available to the device, based on the order of the at least two second signals.",H04W72/12,Wireless traffic scheduling,,,Bahceci Israfil,"['JP5187909B2', 'US9014110B2', 'CN105340195B', 'CN106937365B']",['US20100278123A1'],"['JP5187909B2', 'US9014110B2', 'CN105340195B', 'CN106937365B', 'US20100278123A1']","['CN105340195B', 'CN106937365B']",[],"['CN105340195B', 'CN106937365B']"
+IN2015DE01756A,Patent IN2015DE01756A ,IN,2015-07-17,"The discipline of metrics validation is increasing as the importance of metrics is increases. Validation of security metrics depends on the performance of metrics according to various set standards and criteria. An agile based approach has been designed to answer whether developed security metric is really performs according to compliance or not. Validation approach checks the robustness of security metric, to deal with security considerations. In addition, this approach will also help to identify weak points of newly developed metric.",,,,,Chanra Dr Shalini,[],[],[],[],[],[]
+IN2015CH03675A,Patent IN2015CH03675A ,IN,2015-07-31,"ABSTRACT OF THE INVENTION (to be given along with complete specification on the separate page) This is a portable electronic device for measuring the stress of elephants from urine. For this study urine was collected from 15 elephants and tested. Stresensor is equipment for the analyses of biological reaction. It is a reader device and user friendly associated with electronics and signal processing units. One common example of a Stresensor is like a glucometer.. We are also successful in isolating the electrogenic bacteria which include bacillus species and pseudomonas species. The main objective being the generation of alternating form of electricity from elephant'surine..This project is mainly of two parts. One is the Biological strip and second is the Electronics detector module. Only the strip is enough for the electrons detecting. When biological reaction is completed the electrons come at other end of the strip depends on quantity of venom. But this reaction is not visible through human eyes. The detector sensor is important factor at this time. The Microcontroller (Programmed integrated circuit) is the main part of detector sensor. The function of Microcontroller is continuous testing of some terminals. When electrons come at these terminals the display will show the quantities of electrons come and which terminal is activated. The Analogue to digital converter (ADC) is an important section of this project. ADC is used for the measure of electron flow. The use of display is to show the amount of parameters and the name of Things. The main objective, being the generation of alternating form of electricity from elephant'surine. The growth of computational approaches within various biomedical disciplines is raising due to the production of useful bioinformatics database and methods for the rest of the biomedical scientific community. Bioinformatics has. been growing for about last thirty years .The field development has experienced leaps and bounds due to the advanced in technologies and emerged invaluable in many research works. Molecular sequence databases are a widely adopted contribution in biomedicine from the field of bioinformatics, and microarray analysis is one of the major techniques used by the bioinformatics community As an every disease has a genetic component, the sequenced human genome will have profound effect on the fields of biomedical research. Improved understanding of disease mechanisms can be gained using computational tools to identify and validate new drug targets. Bioinformatics has applications in various fields like personalized medicine, Preventative medicine, Microbial genome applications, evolutionarystudies, insectresistance, Improve nutritional quality etc.",,,,,G Gireeshan Dr M,[],[],[],[],[],[]
+IN2014DN10395A,Patent IN2014DN10395A ,IN,2015-08-14,Computer based educational systems methods and media for a child aged about 1 to about 10 years comprising: an educational environment comprising: at least three subjects appropriate for the child wherein each subject comprises a plurality of levels of learning; a plurality of learning activities associated with each subject; wherein the plurality of learning activities teaches toward one or more educational objectives in a subject and is substantially free of activities not teaching toward one or more educational objectives in a subject; a module for creating an avatar to represent the child; and a module for monitoring the progress of the child in each of the subjects wherein the module for monitoring progress displays an explorable environment comprising the avatar representing the child a learning path comprising a sequence of lessons or learning activities and interactive elements configured to teach facts associated with the environment.,G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Doug Dohring,"['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B']","['JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B', 'JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B']",['CN100565611C'],"['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B', 'CN100565611C']"
+IN2014MN00690A,Patent IN2014MN00690A ,IN,2015-07-03,An apparatus and method are disclosed for generating ability banks in a modular learning system. Learning applications each associated with metadata describing scoring metrics are stored in the modular learning system. Performance items based on the scoring metrics are also stored in the modular learning system each associated with a learning user and a learning application. The modular learning system receives an ability bank generation request specifying a set of learning users and generates an ability bank for the specified set by summing performance items associated with the learning users of the set. In one embodiment the modular learning system generates ability banks for a plurality of sets of learning users and a relative ranking of the sets based on the plurality of ability banks.,G06F16/24578,Query processing with adaptation to user needs using ranking,,,Samridh Kapoor,"['US20140052659A1', 'US9485210B2', 'US11004146B1', 'US10311741B2', 'WO2019125104A1', 'WO2019125115A1']","['US7003503B2', 'US7711847B2', 'US20060106774A1', 'US20060141441A1', 'WO2006124811A2', 'WO2008027811A2', 'US20080133476A1', 'US20080241810A1', 'US8251704B2', 'US9126116B2']","['US20140052659A1', 'US9485210B2', 'US11004146B1', 'US10311741B2', 'WO2019125104A1', 'WO2019125115A1', 'US7003503B2', 'US7711847B2', 'US20060106774A1', 'US20060141441A1', 'WO2006124811A2', 'WO2008027811A2', 'US20080133476A1', 'US20080241810A1', 'US8251704B2', 'US9126116B2']",[],[],[]
+IN2014MN00688A,Patent IN2014MN00688A ,IN,2015-07-03,An apparatus and method are disclosed for generating a personalized learning stream in a modular learning system. Learning applications are stored in the modular learning system each associated with at least one application service. The modular learning system receives a performance request specifying one or more learning applications. After determining an availability of application services associated with the one or more specified learning applications the modular learning system adds the specified learning applications to a learning stream associated with the learning user.,G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Samridh Kapoor,['US9875663B2'],"['US5270920A', 'US5310349A', 'US6386883B2', 'US20040009461A1', 'JP2004517379A', 'US20050021352A1', 'US20100004969A1', 'US8251704B2', 'US20090035733A1', 'US20090305200A1', 'US20090319321A1', 'US20110039249A1', 'WO2011033460A1', 'US20120288843A1']","['US9875663B2', 'US5270920A', 'US5310349A', 'US6386883B2', 'US20040009461A1', 'JP2004517379A', 'US20050021352A1', 'US20100004969A1', 'US8251704B2', 'US20090035733A1', 'US20090305200A1', 'US20090319321A1', 'US20110039249A1', 'WO2011033460A1', 'US20120288843A1']",[],[],[]
+IN2014MN00677A,Patent IN2014MN00677A ,IN,2015-07-03,A modular learning system is provided for publishing new and updated learning applications to users of the modular learning system. The learning application authors are validated by the modular learning system as credentialed learning application authors. The learning application authors are optionally granted access to use a content editing interface and revise information using a template provided by a template user. The resulting learning application may be translated and certified and requested for publication. After publication update requests may be provided to the authoring user to remind the author to review and revise the learning application.,G06F16/958,"Organisation or management of web site content, e.g. publishing, maintaining pages or automatic linking",,,Samridh Kapoor,"['WO2019087064A1', 'US20160163211A1', 'US10268467B2', 'US10223136B2']","['US7845950B2', 'US6470171B1', 'US7873533B2', 'EP1219927B1', 'US7210938B2', 'EP1324212A3', 'US7029280B2', 'US20040044892A1', 'US20040076941A1', 'US7976311B2', 'US20060008789A1', 'US20070100829A1', 'US20100075288A1', 'US8112446B2', 'CA2714523A1']","['WO2019087064A1', 'US20160163211A1', 'US10268467B2', 'US10223136B2', 'US7845950B2', 'US6470171B1', 'US7873533B2', 'EP1219927B1', 'US7210938B2', 'EP1324212A3', 'US7029280B2', 'US20040044892A1', 'US20040076941A1', 'US7976311B2', 'US20060008789A1', 'US20070100829A1', 'US20100075288A1', 'US8112446B2', 'CA2714523A1']",[],[],[]
+IN2014MN00689A,Patent IN2014MN00689A ,IN,2015-07-03,An apparatus and method are disclosed for generating a personalized tutoring stream in a modular learning system. Learning applications are stored in the modular learning system each associated with at least one application service. The modular learning system receives a performance request specifying one or more learning applications. After determining an availability of application services associated with the one or more specified learning applications the modular learning system adds the specified learning applications to a tutoring stream associated with the tutoring user.,G06Q10/06311,"Scheduling, planning or task assignment for a person or group",,,Samridh Kapoor,"['US20140122145A1', 'US20150120594A1', 'US10832584B2', 'US11036770B2', 'CN112330278B', 'US11715384B2']","['US5270920A', 'US6988138B1', 'JP2004517379A', 'US20050021352A1', 'WO2005017688A2', 'US20050164154A1', 'US7467947B2', 'US8121985B2', 'US8358965B2', 'US8251704B2', 'US20090035733A1', 'GB2472731A', 'US20090305200A1', 'US20090319321A1', 'WO2013040107A1']","['US20140122145A1', 'US20150120594A1', 'US10832584B2', 'US11036770B2', 'CN112330278B', 'US11715384B2', 'US5270920A', 'US6988138B1', 'JP2004517379A', 'US20050021352A1', 'WO2005017688A2', 'US20050164154A1', 'US7467947B2', 'US8121985B2', 'US8358965B2', 'US8251704B2', 'US20090035733A1', 'GB2472731A', 'US20090305200A1', 'US20090319321A1', 'WO2013040107A1']",['CN112330278B'],[],['CN112330278B']
+IN2013MU02915A,Patent IN2013MU02915A ,IN,2015-07-03,"The present subject matter discloses a system and a method for providing augmented based learning content to a user. Based on a learning source referred by the user, the system is enabled to extract topics for fetching learning contents from online or offline resources such as internet or system’s database respectively. Thus, the learning source may get augmented by fetching the learning contents from said online or offline sources. Further, information layers may be generated based on topics/subject being read by the user. The information layers generated may get populated with the learning content fetched. Thereafter, the system may be enabled for matching the learning contents populated in the information layers with profile of the user stored in a user profile database. Based upon matching, the learning contents may be conceived and may be delivered to the user. The delivered learning content is personalized to the user.",G09B5/02,"Electrically-operated educational appliances with visual presentation of the material to be studied, e.g. using film strip",,,Niranjan Pedanekar,"['US10467918B1', 'US10540906B1', 'US9852648B2', 'US10854101B1', 'US10929861B2', 'US10970910B2', 'USD907032S1', 'US20210006730A1', 'CN110795635B']","['AUPQ131399A0', 'US5871211A', 'AU2001270054A1', 'US20130101970A1', 'US8010400B2', 'US6904408B1', 'US20020147627A1', 'US20060286519A1', 'CN101495942A', 'US20070154876A1', 'US7849115B2', 'US20080085497A1', 'US9685094B2', 'CN102460374A', 'US8972424B2', 'US20110123967A1', 'US20120330869A1', 'US20130002708A1', 'US9449526B1', 'US20140127667A1', 'US20140192140A1', 'US20160042654A1', 'US10339406B2', 'US9697562B2', 'KR101482430B1', 'US10515631B2', 'US20150187219A1']","['US10467918B1', 'US10540906B1', 'US9852648B2', 'US10854101B1', 'US10929861B2', 'US10970910B2', 'USD907032S1', 'US20210006730A1', 'CN110795635B', 'AUPQ131399A0', 'US5871211A', 'AU2001270054A1', 'US20130101970A1', 'US8010400B2', 'US6904408B1', 'US20020147627A1', 'US20060286519A1', 'CN101495942A', 'US20070154876A1', 'US7849115B2', 'US20080085497A1', 'US9685094B2', 'CN102460374A', 'US8972424B2', 'US20110123967A1', 'US20120330869A1', 'US20130002708A1', 'US9449526B1', 'US20140127667A1', 'US20140192140A1', 'US20160042654A1', 'US10339406B2', 'US9697562B2', 'KR101482430B1', 'US10515631B2', 'US20150187219A1']",['CN110795635B'],"['CN101495942A', 'CN102460374A']","['CN110795635B', 'CN101495942A', 'CN102460374A']"
+IN2014DN10422A,Patent IN2014DN10422A ,IN,2015-08-21,Computer based systems methods media and educational system assembling platforms comprising an educational environment which further comprises: at least one area of skill interest or expertise; a population of learning activities associated with each area of skill interest or expertise; and a guided learning mode comprising: a software module configured to display and provide access to one or more subpopulations of learning activities to be completed by a learner; a software module configured to suggest or recommend one or more particular learning activities to a learner based on analysis of learner data; and a software module configured to allow a mentor to view and tune learner data on which suggestions or recommendations are based.,G09B7/00,Electrically-operated teaching apparatus or devices working with questions and answers,,,Doug Dohring,"['US9324240B2', 'WO2014104620A1', 'CN103399696B', 'US9652675B2', 'US9674244B2', 'RU2667440C1', 'KR20160095543A', 'CN105469335A', 'CN105654812A', 'US10286280B2', 'US10490092B2', 'KR102194227B1', 'CN108346329A', 'US12052320B2', 'CN108768614B', 'CN110910188A', 'WO2020056444A1', 'CN109285402A', 'KR102288106B1', 'CN111754118B', 'US11328732B2', 'CN113012503A', 'BR102021005422A2']","['GB2283668A', 'IT240601Y1', 'US5727950A', 'GB2333085B', 'JP2001194985A', 'US20050287510A1', 'US7974569B2', 'US20070202484A1', 'KR100835234B1', 'US20080254430A1', 'US20090035733A1', 'JP5049771B2', 'JP4934102B2', 'JP2010160556A', 'US20110010306A1', 'CN201927209U', 'CN102364916A']","['US9324240B2', 'WO2014104620A1', 'CN103399696B', 'US9652675B2', 'US9674244B2', 'RU2667440C1', 'KR20160095543A', 'CN105469335A', 'CN105654812A', 'US10286280B2', 'US10490092B2', 'KR102194227B1', 'CN108346329A', 'US12052320B2', 'CN108768614B', 'CN110910188A', 'WO2020056444A1', 'CN109285402A', 'KR102288106B1', 'CN111754118B', 'US11328732B2', 'CN113012503A', 'BR102021005422A2', 'GB2283668A', 'IT240601Y1', 'US5727950A', 'GB2333085B', 'JP2001194985A', 'US20050287510A1', 'US7974569B2', 'US20070202484A1', 'KR100835234B1', 'US20080254430A1', 'US20090035733A1', 'JP5049771B2', 'JP4934102B2', 'JP2010160556A', 'US20110010306A1', 'CN201927209U', 'CN102364916A']","['CN103399696B', 'RU2667440C1', 'CN105469335A', 'CN105654812A', 'CN108346329A', 'CN108768614B', 'CN110910188A', 'CN109285402A', 'CN111754118B', 'CN113012503A', 'BR102021005422A2']","['CN201927209U', 'CN102364916A']","['CN103399696B', 'RU2667440C1', 'CN105469335A', 'CN105654812A', 'CN108346329A', 'CN108768614B', 'CN110910188A', 'CN109285402A', 'CN111754118B', 'CN113012503A', 'BR102021005422A2', 'CN201927209U', 'CN102364916A']"
+IN2014MU00990A,Patent IN2014MU00990A ,IN,2015-10-02,"The present disclosure envisages a computer implemented network enabled learning aid, and a system and method for measuring a learner's progress for professionals and novices alike. The system implements gamified learning techniques rather than monotonous age old learning exercises. This builds up user's interest in the system and motivates the users to perform better every time. Additionally, the learning techniques implemented using the system of the present disclosure inherently improve the learning abilities of the users in a progressive manner. The system includes a study meter which is automatically calibrated with respect to the user's performances at each learning levels. The study meter cooperates with a feedback module that is configured to provide feedback or review based on the user's performance in real time. This gives the user an unbiased knowledge of the areas where the user needs to focus and improve his learning abilities accordingly.",G09B5/08,Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations,,,Ashok Doraisamy Maharaj,"['US9667321B2', 'WO2016070124A1', 'EP3513399A1', 'US10725827B2', 'US20220238032A1', 'US11978359B2']","['US5597312A', 'US6807535B2', 'JP2004517379A', 'US7153140B2', 'US7286793B1', 'US20060141441A1', 'US8326659B2', 'CA2646252A1', 'GB2446427A', 'US8251704B2', 'US9214090B2', 'PT104418B']","['US9667321B2', 'WO2016070124A1', 'EP3513399A1', 'US10725827B2', 'US20220238032A1', 'US11978359B2', 'US5597312A', 'US6807535B2', 'JP2004517379A', 'US7153140B2', 'US7286793B1', 'US20060141441A1', 'US8326659B2', 'CA2646252A1', 'GB2446427A', 'US8251704B2', 'US9214090B2', 'PT104418B']",[],[],[]
+IN2014DN10395A,Patent IN2014DN10395A ,IN,2015-08-14,Computer based educational systems methods and media for a child aged about 1 to about 10 years comprising: an educational environment comprising: at least three subjects appropriate for the child wherein each subject comprises a plurality of levels of learning; a plurality of learning activities associated with each subject; wherein the plurality of learning activities teaches toward one or more educational objectives in a subject and is substantially free of activities not teaching toward one or more educational objectives in a subject; a module for creating an avatar to represent the child; and a module for monitoring the progress of the child in each of the subjects wherein the module for monitoring progress displays an explorable environment comprising the avatar representing the child a learning path comprising a sequence of lessons or learning activities and interactive elements configured to teach facts associated with the environment.,G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Doug Dohring,"['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B']","['JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['US10929651B2', 'US10043060B2', 'US9324240B2', 'WO2016093791A1', 'JP2018514814A', 'CN106297450A', 'CN107030691B', 'US20190129683A1', 'US20190147758A1', 'CN107945067A', 'JP7038525B2', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'KR102508889B1', 'KR102367428B1', 'TWI765802B', 'JP7121848B1', 'JP7378110B1', 'CN117557755B', 'JPH07295466A', 'JP2000342850A', 'AU2001246749A1', 'KR100454137B1', 'US6729884B1', 'US7055823B2', 'JP2004191667A', 'KR20050104935A', 'US7402105B1', 'CN100565611C', 'US7677967B2', 'US20080254438A1', 'US8224891B2', 'US20100099064A1', 'US8229718B2', 'WO2011033460A1', 'KR101043972B1']","['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B']",['CN100565611C'],"['CN106297450A', 'CN107030691B', 'CN107945067A', 'CN109166407B', 'CN109683784A', 'CN113409634B', 'CN111711834B', 'CN112001929B', 'CN117557755B', 'CN100565611C']"
+IN2014DN07244A,Patent IN2014DN07244A ,IN,2015-04-24,Techniques are provided for selecting which videos to recommend to users by predicting the degree to which recommending each video will satisfy certain goals. To make the predictions a trained machine learning engine is fed both collaborative filtering parameter values and content based filtering parameter values. In the case of video to video recommendations the collaborative filtering parameter values may be based on a video pair that includes a video in which a user has already demonstrated an interest. The machine learning engine generates a machine learning score for each video. The machine learning scores are used as the basis for selecting which videos to recommend to a particular user.,H04N21/25,"Management operations performed by the server for facilitating the content distribution or administrating data related to end-users or client devices, e.g. end-user or client device authentication, learning user preferences for recommending movies",,,Zhichen Xu,"['JP5832502B2', 'CN105472413B', 'CN105898423A', 'US10270839B2', 'US10390082B2', 'US10003847B2', 'US10430661B2', 'US20180336645A1', 'KR102384215B1', 'US11972327B2', 'CN108769730B', 'US10896620B2', 'US11301513B2', 'CN109218801B', 'CN109168044B', 'US10812853B2', 'CN113383329A', 'CN111666484B', 'US11100560B2', 'CN110996177B', 'CN113038283B', 'KR102357360B1', 'KR102361593B1', 'CN111708964B', 'CN114079826B', 'KR102391644B1', 'KR20220141854A', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'US11962857B2', 'CN114363660B', 'US11895372B1']","['AU5934900A', 'AU6310500A', 'AUPQ246899A0', 'AU2099201A', 'JP2001282838A', 'US7441260B1', 'EP1223757B1', 'US20020174429A1', 'JP2002342375A', 'JP4098539B2', 'US7171620B2', 'CA2520621A1', 'JP4305862B2', 'US9201979B2', 'JP2008167019A', 'KR100925511B1', 'CN101271559A', 'JP2009284103A', 'KR100997028B1', 'JP2010067175A', 'JP5173856B2', 'US9215423B2', 'GB2472224A', 'JP2011175362A', 'JP5440394B2', 'CN102263992A']","['JP5832502B2', 'CN105472413B', 'CN105898423A', 'US10270839B2', 'US10390082B2', 'US10003847B2', 'US10430661B2', 'US20180336645A1', 'KR102384215B1', 'US11972327B2', 'CN108769730B', 'US10896620B2', 'US11301513B2', 'CN109218801B', 'CN109168044B', 'US10812853B2', 'CN113383329A', 'CN111666484B', 'US11100560B2', 'CN110996177B', 'CN113038283B', 'KR102357360B1', 'KR102361593B1', 'CN111708964B', 'CN114079826B', 'KR102391644B1', 'KR20220141854A', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'US11962857B2', 'CN114363660B', 'US11895372B1', 'AU5934900A', 'AU6310500A', 'AUPQ246899A0', 'AU2099201A', 'JP2001282838A', 'US7441260B1', 'EP1223757B1', 'US20020174429A1', 'JP2002342375A', 'JP4098539B2', 'US7171620B2', 'CA2520621A1', 'JP4305862B2', 'US9201979B2', 'JP2008167019A', 'KR100925511B1', 'CN101271559A', 'JP2009284103A', 'KR100997028B1', 'JP2010067175A', 'JP5173856B2', 'US9215423B2', 'GB2472224A', 'JP2011175362A', 'JP5440394B2', 'CN102263992A']","['CN105472413B', 'CN105898423A', 'CN108769730B', 'CN109218801B', 'CN109168044B', 'CN113383329A', 'CN111666484B', 'CN110996177B', 'CN113038283B', 'CN111708964B', 'CN114079826B', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'CN114363660B']","['CN101271559A', 'CN102263992A']","['CN105472413B', 'CN105898423A', 'CN108769730B', 'CN109218801B', 'CN109168044B', 'CN113383329A', 'CN111666484B', 'CN110996177B', 'CN113038283B', 'CN111708964B', 'CN114079826B', 'CN112949703B', 'CN113015010B', 'CN113239230B', 'CN114363660B', 'CN101271559A', 'CN102263992A']"
+IN2014MN00687A,Patent IN2014MN00687A ,IN,2015-07-03,A modular learning system provides recruiting systems and methods to a recruiting user. A recruiting user provides a recruiting request to the modular learning system. The recruiting request specifies learning applications and minimum performance metrics for users qualifying for recruitment. Learning users who have performed the learning applications at the specified performance metrics are eligible for recruitment by the recruiting user and may be provided an interview with the recruiting user.,G06Q10/1053,Employment or hiring,,,Samridh Kapoor,"['US9875663B2', 'US9649556B1', 'US10607188B2', 'WO2016086133A2', 'US20170323270A1', 'US20180211343A1', 'US12052320B2', 'US11861562B2']","['US20020143573A1', 'US6537072B2', 'US8660918B2', 'CA2544324A1', 'CA2646252A1', 'US20090228323A1', 'US8597031B2', 'US20100138474A1', 'CA2777074A1', 'US8083643B2', 'US8915744B2', 'US20110276507A1', 'US20110313942A1']","['US9875663B2', 'US9649556B1', 'US10607188B2', 'WO2016086133A2', 'US20170323270A1', 'US20180211343A1', 'US12052320B2', 'US11861562B2', 'US20020143573A1', 'US6537072B2', 'US8660918B2', 'CA2544324A1', 'CA2646252A1', 'US20090228323A1', 'US8597031B2', 'US20100138474A1', 'CA2777074A1', 'US8083643B2', 'US8915744B2', 'US20110276507A1', 'US20110313942A1']",[],[],[]
+IN2014DN10141A,Patent IN2014DN10141A ,IN,2015-08-21,"Provided is a coolant- control valve which makes an efficient structure possible, and is capable of initialization learning using a stopper , by providing the interior of an actuator for powering a valve body with a stopper for initialization learning. This coolant- control valve is equipped with a rotor driven so as to control the flow of coolant for cooling an engine , a casing for housing a rotor, and a rotation- drive device (3) for driving the rotor. The control means of a rotation -drive device (3) has an initialization- learning function in the operating range of the rotor. The rotation -drive device (3) is equipped with a motor (33) and a decelerator (34). The operating range of the rotor is restricted by restricting the operating range of an output gear (41) among the power -transmitting elements provided in the decelerator (34). In addition , an output gear groove (43) and a fixed -angle stopper (44) inserted into the groove (43) are provided as restriction means for use during initialization learning by the control means.",F01P7/14,Controlling of coolant flow the coolant being liquid,,,Toru Tsuchiya,"['JP6050952B2', 'JP6394441B2', 'JP6380073B2', 'JP6581367B2', 'EP3279532B1', 'JP6304105B2', 'KR101694043B1', 'JP2017096152A', 'US20170241308A1', 'DE102016112235A1', 'US10344883B2', 'JP6790802B2', 'JP7054644B2', 'CN115419728A', 'CN108979832A', 'JP7041267B2', 'JP7127558B2', 'CN112648062B', 'DE112019002377B4', 'WO2021228780A1']","['JP3195687B2', 'JP3794783B2', 'JP2001099347A', 'JP2002098245A', 'DE10053850A1', 'US6659050B1', 'JP3872743B2', 'JP4012449B2', 'JP2005133624A', 'JP4146456B2', 'JP2007285173A', 'FR2901004B1', 'JP2011169390A']","['JP6050952B2', 'JP6394441B2', 'JP6380073B2', 'JP6581367B2', 'EP3279532B1', 'JP6304105B2', 'KR101694043B1', 'JP2017096152A', 'US20170241308A1', 'DE102016112235A1', 'US10344883B2', 'JP6790802B2', 'JP7054644B2', 'CN115419728A', 'CN108979832A', 'JP7041267B2', 'JP7127558B2', 'CN112648062B', 'DE112019002377B4', 'WO2021228780A1', 'JP3195687B2', 'JP3794783B2', 'JP2001099347A', 'JP2002098245A', 'DE10053850A1', 'US6659050B1', 'JP3872743B2', 'JP4012449B2', 'JP2005133624A', 'JP4146456B2', 'JP2007285173A', 'FR2901004B1', 'JP2011169390A']","['CN115419728A', 'CN108979832A', 'CN112648062B']",[],"['CN115419728A', 'CN108979832A', 'CN112648062B']"
+IN2013CH01234A,Patent IN2013CH01234A ,IN,2015-08-21,The technique relates to a system and method for learning and learning oriented assessment of at least one learner based on a role to be performed by the at least one learner. This technique involves identifying knowledge areas related to a particular role to be performed by the learner. Under each knowledge area different learning workflows are identified and relevant topics are mapped to the learning workflows. The performance expectation from the learner at each learning workflow level is defined. The one more challenges related to the mapped topics are created and presented to the learner to solve and a score is generated for solving the challenges. This score is compared with the predefined performance expectation to determine the learning effectiveness of the learner and a capability index is computed for the learner. REF FIG: 1,G09B5/08,Electrically-operated educational appliances providing for individual presentation of information to a plurality of student stations,,,Beleyur Manjappa Subraya,['CN117556381B'],"['US6606480B1', 'CA2544324A1', 'US20090094528A1']","['CN117556381B', 'US6606480B1', 'CA2544324A1', 'US20090094528A1']",['CN117556381B'],[],['CN117556381B']
+IN2014CN00716A,Patent IN2014CN00716A ,IN,2015-04-03,Certain aspects of the present disclosure support a technique for neural temporal coding learning and recognition. A method of neural coding of large or long spatial temporal patterns is also proposed. Further generalized neural coding and learning with temporal and rate coding is disclosed in the present disclosure.,G06N3/04,"Architecture, e.g. interconnection topology",,,Victor Hokkiu Chan,"['US9122994B2', 'US9405975B2', 'US9906838B2', 'US9070039B2', 'US9053428B2', 'US9092735B2', 'US9111224B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US9424511B2', 'US8909575B2', 'US9224090B2', 'US9064215B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9111226B2', 'US9218563B2', 'US9183493B2', 'US9275326B2', 'US9123127B2', 'WO2014149070A1', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US9275329B2', 'US9652711B2', 'US9987743B2', 'US9533413B2', 'US20150269485A1', 'US20150278685A1', 'KR101925905B1', 'CN111291873A', 'US9881349B1', 'CN106295799B', 'US10083395B2', 'US9840003B2', 'KR101701250B1', 'US10423879B2', 'TWI581205B', 'JP2019518273A', 'CN106055866A', 'CN106447032B', 'JP6750118B2', 'EP3340129B1', 'CN106897768B', 'WO2018164539A1', 'US20190087714A1', 'WO2019107612A1', 'US20190302707A1', 'US11507818B2', 'TWI735886B', 'CN108985447B', 'US11188815B2', 'US11734556B2', 'KR20200111584A', 'KR102545066B1', 'US11727250B2', 'JP7521272B2', 'TWI758994B', 'TWI806042B', 'US11741353B2', 'US12050875B2', 'US12013958B2', 'CN114925734B']","['US4893255A', 'WO1993018474A1', 'JP3178884B2', 'JP3345478B2', 'US5666079A', 'RU2128363C1', 'EP0892956A4', 'US6284794B1', 'EP1025478A2', 'US6581046B1', 'US6505182B1', 'JP4478296B2', 'JP2002024795A', 'US7088860B2', 'US7287014B2', 'US7412428B2', 'US7174325B1', 'US7430546B1', 'US7657313B2', 'WO2006126185A2', 'US7904398B1', 'CA2642041C', 'WO2008010220A2', 'WO2008106615A1', 'GB0811057D0', 'WO2010025130A1', 'US8250011B2', 'US8630966B2', 'US7978510B2', 'US8250010B2', 'US8447714B2', 'JP5458791B2', 'RU2413304C1', 'US8527438B2', 'US8625337B2', 'CN101860357B', 'US8433665B2', 'US8694452B2', 'US8892485B2', 'US8606732B2', 'US9269042B2', 'US8515885B2', 'US8473439B2', 'US8756173B2', 'US9147156B2', 'US9053428B2', 'US8706662B2', 'US9092735B2', 'US9111224B2', 'US8909575B2', 'US9064215B2']","['US9122994B2', 'US9405975B2', 'US9906838B2', 'US9070039B2', 'US9053428B2', 'US9092735B2', 'US9111224B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US9424511B2', 'US8909575B2', 'US9224090B2', 'US9064215B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9111226B2', 'US9218563B2', 'US9183493B2', 'US9275326B2', 'US9123127B2', 'WO2014149070A1', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US9275329B2', 'US9652711B2', 'US9987743B2', 'US9533413B2', 'US20150269485A1', 'US20150278685A1', 'KR101925905B1', 'CN111291873A', 'US9881349B1', 'CN106295799B', 'US10083395B2', 'US9840003B2', 'KR101701250B1', 'US10423879B2', 'TWI581205B', 'JP2019518273A', 'CN106055866A', 'CN106447032B', 'JP6750118B2', 'EP3340129B1', 'CN106897768B', 'WO2018164539A1', 'US20190087714A1', 'WO2019107612A1', 'US20190302707A1', 'US11507818B2', 'TWI735886B', 'CN108985447B', 'US11188815B2', 'US11734556B2', 'KR20200111584A', 'KR102545066B1', 'US11727250B2', 'JP7521272B2', 'TWI758994B', 'TWI806042B', 'US11741353B2', 'US12050875B2', 'US12013958B2', 'CN114925734B', 'US4893255A', 'WO1993018474A1', 'JP3178884B2', 'JP3345478B2', 'US5666079A', 'RU2128363C1', 'EP0892956A4', 'US6284794B1', 'EP1025478A2', 'US6581046B1', 'US6505182B1', 'JP4478296B2', 'JP2002024795A', 'US7088860B2', 'US7287014B2', 'US7412428B2', 'US7174325B1', 'US7430546B1', 'US7657313B2', 'WO2006126185A2', 'US7904398B1', 'CA2642041C', 'WO2008010220A2', 'WO2008106615A1', 'GB0811057D0', 'WO2010025130A1', 'US8250011B2', 'US8630966B2', 'US7978510B2', 'US8250010B2', 'US8447714B2', 'JP5458791B2', 'RU2413304C1', 'US8527438B2', 'US8625337B2', 'CN101860357B', 'US8433665B2', 'US8694452B2', 'US8892485B2', 'US8606732B2', 'US9269042B2', 'US8515885B2', 'US8473439B2', 'US8756173B2', 'US9147156B2', 'US9053428B2', 'US8706662B2', 'US9092735B2', 'US9111224B2', 'US8909575B2', 'US9064215B2']","['CN111291873A', 'CN106295799B', 'CN106055866A', 'CN106447032B', 'CN106897768B', 'CN108985447B', 'CN114925734B']","['RU2128363C1', 'RU2413304C1', 'CN101860357B']","['CN111291873A', 'CN106295799B', 'CN106055866A', 'CN106447032B', 'CN106897768B', 'CN108985447B', 'CN114925734B', 'RU2128363C1', 'RU2413304C1', 'CN101860357B']"
+IN2014MN01775A,Patent IN2014MN01775A ,IN,2015-07-03,A flight control system for at least one tethered gyroglider along a flight path consistent with at least one flight mission is configured to fly the gyroglider within a portfolio of winds managing an interaction between portfolios of at least four envelopes including wind gyroglider performance flight and base station. Every flight mission corresponds to at least one flight path associated with a set containing at least one first value and at least one second value. The control system is provided with a learning and library manager comprising a repository having stored sets of first values and associated second values for each flight path. The current first values associated with a current mission are corrected based on predicted or experienced flight paths and measurable outputs to attain the desired flight path. The corrected experienced values flight path and measurable output are further stored in the repository for further learning.,G05D1/00,"Control of position, course, altitude or attitude of land, water, air or space vehicles, e.g. using automatic pilots",,,Gregory Howard Hastings,"['US8894001B2', 'WO2012061598A1', 'US9205921B1', 'US9429954B2', 'US9879655B1', 'US9840328B2', 'JP2017109528A', 'US9886864B1', 'CN106406327A', 'CN108069045B', 'US10316823B2', 'US11030906B2', 'WO2019141330A1', 'EP3810923B1']","['US3223359A', 'US3987987A', 'US4124182A', 'US5301900A', 'US5149020A', 'US5381988A', 'NL1004508C2', 'US5971320A', 'US5996934A', 'US6254034B1', 'US6523781B2', 'US20030066934A1', 'US7183663B2', 'US7109598B2', 'AUPR871201A0', 'US20050046197A1', 'GB2411209A', 'DE102004018837A1', 'FR2883403A1', 'US7275719B2', 'US20070120005A1', 'DE202006005389U1', 'PL2010783T3', 'PT103489B', 'IL176200A', 'EP1905687A3', 'ITTO20060874A1', 'RU68145U1', 'US7656053B2', 'FR2927260B1', 'EP2297459A1', 'JP5503650B2', 'US20100230546A1', 'GB0906829D0', 'US8894001B2', 'WO2012061598A1', 'US9388794B2', 'US8791585B2']","['US8894001B2', 'WO2012061598A1', 'US9205921B1', 'US9429954B2', 'US9879655B1', 'US9840328B2', 'JP2017109528A', 'US9886864B1', 'CN106406327A', 'CN108069045B', 'US10316823B2', 'US11030906B2', 'WO2019141330A1', 'EP3810923B1', 'US3223359A', 'US3987987A', 'US4124182A', 'US5301900A', 'US5149020A', 'US5381988A', 'NL1004508C2', 'US5971320A', 'US5996934A', 'US6254034B1', 'US6523781B2', 'US20030066934A1', 'US7183663B2', 'US7109598B2', 'AUPR871201A0', 'US20050046197A1', 'GB2411209A', 'DE102004018837A1', 'FR2883403A1', 'US7275719B2', 'US20070120005A1', 'DE202006005389U1', 'PL2010783T3', 'PT103489B', 'IL176200A', 'EP1905687A3', 'ITTO20060874A1', 'RU68145U1', 'US7656053B2', 'FR2927260B1', 'EP2297459A1', 'JP5503650B2', 'US20100230546A1', 'GB0906829D0', 'US8894001B2', 'WO2012061598A1', 'US9388794B2', 'US8791585B2']","['CN106406327A', 'CN108069045B']",['RU68145U1'],"['CN106406327A', 'CN108069045B', 'RU68145U1']"
+IN2014DN08315A,Patent IN2014DN08315A ,IN,2015-05-15,A system for controlling the vanes of a variable geometry turbine supplying an internal combustion engine of a motor vehicle comprising a subtractor (5) capable of determining the deviation between a supercharging pressure setpoint and measurement a regulator (4) capable of transmitting an output control signal to the vanes of a variable geometry turbine a mapping (3) of the position of the vanes on the basis of the rotational speed of the engine and a torque set point a determination means (1) for determining the learning conditions capable of transmitting a control signal to a learning means (2) for learning the control which is capable of transmitting a correction to the control signal of the vanes on the basis of the signals of the mapping and of the regulator the means (2) for learning being capable of learning the prepositioning signals on receipt of a signal from the determination means (1).,F02D41/0007,Controlling intake air for control of turbo-charged or super-charged engines,,,Laurent Fontvieille,"['KR101878060B1', 'DE102017220404A1', 'FR3075406B1', 'US11168612B2']","['DE19751977C2', 'EP1322846B1', 'FR2831921B1', 'FR2872547B1', 'JP4468874B2', 'FR2902467A1', 'FR2911918B1', 'JP2009013873A', 'JP4853471B2', 'DE102008017164B3']","['KR101878060B1', 'DE102017220404A1', 'FR3075406B1', 'US11168612B2', 'DE19751977C2', 'EP1322846B1', 'FR2831921B1', 'FR2872547B1', 'JP4468874B2', 'FR2902467A1', 'FR2911918B1', 'JP2009013873A', 'JP4853471B2', 'DE102008017164B3']",[],[],[]
+IN2014CN02852A,Patent IN2014CN02852A ,IN,2015-07-03,Systems and methods of the present solution provide a more optimal solution by dynamically and automatically reacting to changing network workload. A system that starts slowly either by just examining traffic passively or by doing sub optimal acceleration can learn over time how many peer WAN optimizers are being serviced by an appliance how much traffic is coming from each peer WAN optimizers and the type of traffic being seen. Knowledge from this learning can serve to provide a better or improved baseline for the configuration of an appliance. In some embodiments based on resources (e.g. CPU Memory Disk) the system from this knowledge may determine how many WAN optimization instances should be used and of what size and how the load should be distributed across the instances of the WAN optimizer.,H04L67/1025,Dynamic adaptation of the criteria on which the server selection is based,,,Marco Murgia,"['WO2014166604A1', 'US9830354B2', 'US9251218B2', 'US9495418B2', 'US9619499B2', 'CN103986585B', 'US10310813B2', 'US10489178B2', 'US10142353B2', 'US10536357B2', 'CN106936875B', 'TWI647565B', 'US10122647B2', 'CN108347341A', 'WO2018167092A1', 'SE541441C2', 'US11068281B2', 'US11233743B2', 'CN110557320B', 'CN111031055B', 'CN111506541B', 'US11671437B2', 'US20230239247A1']","['US6728748B1', 'US20010049741A1', 'US8171124B2']","['WO2014166604A1', 'US9830354B2', 'US9251218B2', 'US9495418B2', 'US9619499B2', 'CN103986585B', 'US10310813B2', 'US10489178B2', 'US10142353B2', 'US10536357B2', 'CN106936875B', 'TWI647565B', 'US10122647B2', 'CN108347341A', 'WO2018167092A1', 'SE541441C2', 'US11068281B2', 'US11233743B2', 'CN110557320B', 'CN111031055B', 'CN111506541B', 'US11671437B2', 'US20230239247A1', 'US6728748B1', 'US20010049741A1', 'US8171124B2']","['CN103986585B', 'CN106936875B', 'CN108347341A', 'CN110557320B', 'CN111031055B', 'CN111506541B']",[],"['CN103986585B', 'CN106936875B', 'CN108347341A', 'CN110557320B', 'CN111031055B', 'CN111506541B']"
+IN2014CN03033A,Patent IN2014CN03033A ,IN,2015-07-03,Certain aspects of the present disclosure support techniques for unsupervised neural replay learning refinement association and memory transfer.,G06N3/049,"Temporal neural networks, e.g. delay elements, oscillating neurons or pulsed inputs",,,Jason Frank Hunzinger,"['US9443190B2', 'US9424513B2', 'US9015091B2', 'US9652711B2', 'CN104778202B', 'CN106650922B', 'CN109002647B', 'US11790245B2', 'EP3953868A4', 'CN110222387B', 'US11742901B2']","['US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'US20080243741A1', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']","['US9443190B2', 'US9424513B2', 'US9015091B2', 'US9652711B2', 'CN104778202B', 'CN106650922B', 'CN109002647B', 'US11790245B2', 'EP3953868A4', 'CN110222387B', 'US11742901B2', 'US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'US20080243741A1', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424513B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']","['CN104778202B', 'CN106650922B', 'CN109002647B', 'CN110222387B']",[],"['CN104778202B', 'CN106650922B', 'CN109002647B', 'CN110222387B']"
+IN2014CN03228A,Patent IN2014CN03228A ,IN,2015-07-03,The methods devices and systems may allow a practitioner to obtain information regarding a biological sample including analytical data a medical diagnosis and/or a prognosis or predictive analysis. In addition the methods devices and systems may train one or more machine learning algorithms to perform a diagnosis of a biological sample.,G06T7/0012,Biomedical image inspection,,,Stanley H Remiszewski,"['US8326775B2', 'US11003706B2', 'US11361014B2', 'US10535192B2', 'US11620327B2', 'US8818916B2', 'US9646005B2', 'US10635640B2', 'US20170300486A1', 'US10607355B2', 'US10193990B2', 'US10949773B2', 'US10180942B2', 'US9384196B2', 'US9953032B2', 'US10848590B2', 'US10742340B2', 'US10191976B2', 'US10380267B2', 'US9191626B2', 'US11403336B2', 'US9477658B2', 'US10380623B2', 'US9031999B2', 'US10698939B2', 'US20160321253A1', 'US10360253B2', 'US11019161B2', 'US10691642B2', 'US11216498B2', 'US11032017B2', 'US10585934B2', 'US9639532B2', 'US10614626B2', 'US10621988B2', 'US11386139B2', 'US10387914B2', 'US10380164B2', 'US9218606B2', 'US9372940B2', 'US9767143B2', 'US20180157675A1', 'US10776585B2', 'US10372746B2', 'US11604847B2', 'US8312031B2', 'US8266185B2', 'US9747420B2', 'US10733326B2', 'US9798918B2', 'US11244495B2', 'WO2015112932A1', 'CN103841420B', 'US10115316B2', 'CN107076721A', 'KR101748019B1', 'GB201505864D0', 'KR101723732B1', 'KR101822404B1', 'WO2017105641A1', 'US11195043B2', 'JP6910792B2', 'KR101876338B1', 'US11835524B2', 'WO2019008581A1', 'US11899707B2', 'JP7336443B2', 'CN112204670A', 'KR102357952B1', 'US10846544B2', 'KR102215269B1', 'KR102041402B1', 'US11181911B2', 'US20200133308A1', 'US11126870B2', 'US10839694B2', 'CN109387484A', 'US11270132B2', 'SE544735C2', 'US10789535B2', 'KR102307995B1', 'US11643005B2', 'US11285963B2', 'US11694088B2', 'US11132548B2', 'US12055408B2', 'US10776669B1', 'US11222069B2', 'US11488290B2', 'US10796444B1', 'US10789527B1', 'GB2596967B', 'KR102316557B1', 'JP7346600B2', 'CA3140835C', 'JP7383939B2', 'JP7545202B2', 'US11593662B2', 'US10748022B1', 'DE102020105123B3', 'US11590988B2', 'US11827215B2', 'KR20230011390A', 'US11756424B2', 'CN112183572B', 'US12049116B2', 'US12094180B2', 'WO2022073244A1', 'US10962473B1', 'US11955243B2', 'WO2022132966A1', 'US11514350B1', 'US11348664B1', 'KR102325963B1', 'EP4194300A1', 'US11404144B1', 'US11373107B1', 'WO2023096971A1', 'WO2024155928A1', 'US11982661B1']","['US20020146160A1', 'US20020118883A1', 'US6574304B1', 'US20040068167A1', 'JP2004185547A', 'JP2005026951A', 'JP2005176990A', 'US7907769B2', 'IL162921A0', 'WO2006020627A1', 'US20060210131A1', 'US7474775B2', 'US20060001545A1', 'WO2006125674A1', 'US7711211B2', 'WO2007067999A2', 'US20070160275A1', 'US7680341B2', 'CN101484806A', 'US8019134B2', 'US8542899B2', 'WO2008115405A2', 'US20090092299A1', 'US8116551B2', 'WO2009073963A1', 'US20090226059A1', 'WO2009142758A1', 'KR101548032B1', 'US8280133B2', 'JP2010057902A', 'US10013638B2', 'IT1391619B1', 'US8488863B2', 'US20100125421A1', 'JP2010128971A', 'JP2012510672A', 'JP5359389B2', 'US9025841B2', 'JP5786110B2', 'US9836482B2', 'AU2011210535B2', 'CA2804293A1', 'US9025850B2', 'US9348972B2', 'US9486142B2', 'US8934722B2', 'US8842883B2', 'US8948500B2', 'US20160180041A1', 'US8879813B1', 'US20160157725A1']","['US8326775B2', 'US11003706B2', 'US11361014B2', 'US10535192B2', 'US11620327B2', 'US8818916B2', 'US9646005B2', 'US10635640B2', 'US20170300486A1', 'US10607355B2', 'US10193990B2', 'US10949773B2', 'US10180942B2', 'US9384196B2', 'US9953032B2', 'US10848590B2', 'US10742340B2', 'US10191976B2', 'US10380267B2', 'US9191626B2', 'US11403336B2', 'US9477658B2', 'US10380623B2', 'US9031999B2', 'US10698939B2', 'US20160321253A1', 'US10360253B2', 'US11019161B2', 'US10691642B2', 'US11216498B2', 'US11032017B2', 'US10585934B2', 'US9639532B2', 'US10614626B2', 'US10621988B2', 'US11386139B2', 'US10387914B2', 'US10380164B2', 'US9218606B2', 'US9372940B2', 'US9767143B2', 'US20180157675A1', 'US10776585B2', 'US10372746B2', 'US11604847B2', 'US8312031B2', 'US8266185B2', 'US9747420B2', 'US10733326B2', 'US9798918B2', 'US11244495B2', 'WO2015112932A1', 'CN103841420B', 'US10115316B2', 'CN107076721A', 'KR101748019B1', 'GB201505864D0', 'KR101723732B1', 'KR101822404B1', 'WO2017105641A1', 'US11195043B2', 'JP6910792B2', 'KR101876338B1', 'US11835524B2', 'WO2019008581A1', 'US11899707B2', 'JP7336443B2', 'CN112204670A', 'KR102357952B1', 'US10846544B2', 'KR102215269B1', 'KR102041402B1', 'US11181911B2', 'US20200133308A1', 'US11126870B2', 'US10839694B2', 'CN109387484A', 'US11270132B2', 'SE544735C2', 'US10789535B2', 'KR102307995B1', 'US11643005B2', 'US11285963B2', 'US11694088B2', 'US11132548B2', 'US12055408B2', 'US10776669B1', 'US11222069B2', 'US11488290B2', 'US10796444B1', 'US10789527B1', 'GB2596967B', 'KR102316557B1', 'JP7346600B2', 'CA3140835C', 'JP7383939B2', 'JP7545202B2', 'US11593662B2', 'US10748022B1', 'DE102020105123B3', 'US11590988B2', 'US11827215B2', 'KR20230011390A', 'US11756424B2', 'CN112183572B', 'US12049116B2', 'US12094180B2', 'WO2022073244A1', 'US10962473B1', 'US11955243B2', 'WO2022132966A1', 'US11514350B1', 'US11348664B1', 'KR102325963B1', 'EP4194300A1', 'US11404144B1', 'US11373107B1', 'WO2023096971A1', 'WO2024155928A1', 'US11982661B1', 'US20020146160A1', 'US20020118883A1', 'US6574304B1', 'US20040068167A1', 'JP2004185547A', 'JP2005026951A', 'JP2005176990A', 'US7907769B2', 'IL162921A0', 'WO2006020627A1', 'US20060210131A1', 'US7474775B2', 'US20060001545A1', 'WO2006125674A1', 'US7711211B2', 'WO2007067999A2', 'US20070160275A1', 'US7680341B2', 'CN101484806A', 'US8019134B2', 'US8542899B2', 'WO2008115405A2', 'US20090092299A1', 'US8116551B2', 'WO2009073963A1', 'US20090226059A1', 'WO2009142758A1', 'KR101548032B1', 'US8280133B2', 'JP2010057902A', 'US10013638B2', 'IT1391619B1', 'US8488863B2', 'US20100125421A1', 'JP2010128971A', 'JP2012510672A', 'JP5359389B2', 'US9025841B2', 'JP5786110B2', 'US9836482B2', 'AU2011210535B2', 'CA2804293A1', 'US9025850B2', 'US9348972B2', 'US9486142B2', 'US8934722B2', 'US8842883B2', 'US8948500B2', 'US20160180041A1', 'US8879813B1', 'US20160157725A1']","['CN103841420B', 'CN107076721A', 'CN112204670A', 'CN109387484A', 'CN112183572B']",['CN101484806A'],"['CN103841420B', 'CN107076721A', 'CN112204670A', 'CN109387484A', 'CN112183572B', 'CN101484806A']"
+IN2014CN03295A,Patent IN2014CN03295A ,IN,2015-07-03,Certain aspects of the present disclosure support techniques for unsupervised neural replay learning refinement association and memory transfer.,G06N3/049,"Temporal neural networks, e.g. delay elements, oscillating neurons or pulsed inputs",,,Jason Frank Hunzinger,"['US9405975B2', 'US9906838B2', 'US9424511B2', 'US9015091B2', 'US9424513B2', 'KR101912165B1', 'US9070083B2', 'US9224090B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9183493B2', 'US9218563B2', 'US9111226B2', 'US9275326B2', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US20150134582A1', 'US9987743B2', 'US9533413B2', 'US10275705B2', 'US9881349B1', 'US10083395B2', 'US9840003B2', 'WO2017068490A1', 'WO2018182827A1', 'US11645835B2', 'US11742901B2']","['US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9424513B2', 'US8909575B2', 'WO2014081671A1']","['US9405975B2', 'US9906838B2', 'US9424511B2', 'US9015091B2', 'US9424513B2', 'KR101912165B1', 'US9070083B2', 'US9224090B2', 'US9412041B1', 'US9186793B1', 'US9311594B1', 'US9183493B2', 'US9218563B2', 'US9111226B2', 'US9275326B2', 'US9239985B2', 'US9436909B2', 'US9552546B1', 'US20150134582A1', 'US9987743B2', 'US9533413B2', 'US10275705B2', 'US9881349B1', 'US10083395B2', 'US9840003B2', 'WO2017068490A1', 'WO2018182827A1', 'US11645835B2', 'US11742901B2', 'US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9424513B2', 'US8909575B2', 'WO2014081671A1']",[],[],[]
+IN2014CN03069A,Patent IN2014CN03069A ,IN,2015-07-31,Certain aspects of the present disclosure support techniques for unsupervised neural replay learning refinement association and memory transfer.,G06N3/082,"Learning methods modifying the architecture, e.g. adding, deleting or silencing nodes or connections",,,Jason Frank Hunzinger,"['US9443190B2', 'US9015091B2', 'US9424511B2', 'US9652711B2', 'US20150286925A1', 'US10740659B2', 'KR20210137191A', 'CN113874881A', 'JP7118930B2', 'US11742901B2']","['US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']","['US9443190B2', 'US9015091B2', 'US9424511B2', 'US9652711B2', 'US20150286925A1', 'US10740659B2', 'KR20210137191A', 'CN113874881A', 'JP7118930B2', 'US11742901B2', 'US5583964A', 'US7089218B1', 'JP3647584B2', 'US6041322A', 'WO2004097733A2', 'JP2005190429A', 'JP2008542859A', 'JP4201012B2', 'EP2259214B1', 'US20120117012A1', 'US8382484B2', 'US9147155B2', 'US9015091B2', 'US9424511B2', 'US9443190B2', 'US8909575B2', 'WO2014081671A1']",['CN113874881A'],[],['CN113874881A']
+IN2015DN02931A,Patent IN2015DN02931A ,IN,2015-09-18,A learning aid including a series of symbols and movable portions. Each of the movable portions is associated with at least one of the symbols and is movable by hand from a first position to a second position to select at least one of the symbols.,G09B1/06,"Manually or mechanically operated educational appliances using elements forming, or bearing, symbols, signs, pictures, or the like which are arranged or adapted to be arranged in one or more particular ways and having a support carrying or adapted to carry the elements the elements each bearing a single symbol or a single combination of symbols and being attachable to, or mounted on, the support",,,John Exton,"['CN110718099A', 'US20220023150A1', 'US20220327944A1']","['US2770209A', 'US576017A', 'US2541423A', 'US797800A', 'US1489028A', 'US1803265A', 'US2987827A', 'US3349202A', 'US3456948A', 'US3694932A', 'GB1407899A', 'IL44054A', 'DE3202609A1', 'US4560354A', 'US4793492A', 'CN2061315U', 'US5311834A', 'US5391078A', 'US6264199B1', 'US6884077B2', 'US6964110B2', 'US20040251165A1', 'CN2828967Y', 'US7534106B1', 'US7771200B2', 'US7828553B2', 'CN101409164A', 'GB2458652A', 'WO2012017397A2', 'CN201824665U', 'US8438744B1']","['CN110718099A', 'US20220023150A1', 'US20220327944A1', 'US2770209A', 'US576017A', 'US2541423A', 'US797800A', 'US1489028A', 'US1803265A', 'US2987827A', 'US3349202A', 'US3456948A', 'US3694932A', 'GB1407899A', 'IL44054A', 'DE3202609A1', 'US4560354A', 'US4793492A', 'CN2061315U', 'US5311834A', 'US5391078A', 'US6264199B1', 'US6884077B2', 'US6964110B2', 'US20040251165A1', 'CN2828967Y', 'US7534106B1', 'US7771200B2', 'US7828553B2', 'CN101409164A', 'GB2458652A', 'WO2012017397A2', 'CN201824665U', 'US8438744B1']",['CN110718099A'],"['CN2061315U', 'CN2828967Y', 'CN101409164A', 'CN201824665U']","['CN110718099A', 'CN2061315U', 'CN2828967Y', 'CN101409164A', 'CN201824665U']"
+IN2009CH01365A,Patent IN2009CH01365A ,IN,2015-10-02,"The present invention provides a method and system for preventing MAC address learning in Provider Backbone Bridge Network (PBBN). In one embodiment, this is accomplished by receiving data frames from at least one operator/client at the first PBB network which has to be communicating to the second PBB network, adding forward path learning information from the received data frames in the first PBB network and translating backbone MAC source address of the received data frame at the first PBB network by replacing the backbone MAC source address with a BEB backbone MAC address, thereby preventing of backbone MAC address learning of the first PBB network in the second PBB network. Figure 3",H04L12/4625,"Single bridge functionality, e.g. connection of two networks over a single bridge",,,Kumar Madaiah Vinod,['CN102801625B'],"['CN101123570B', 'US8619784B2', 'US8751683B2', 'US20080281987A1', 'US7886080B2', 'US7697534B1']","['CN102801625B', 'CN101123570B', 'US8619784B2', 'US8751683B2', 'US20080281987A1', 'US7886080B2', 'US7697534B1']",['CN102801625B'],['CN101123570B'],"['CN102801625B', 'CN101123570B']"
+IN2015CH04673A,Patent IN2015CH04673A ,IN,2015-09-11,"This disclosure relates generally to software testing, and more particularly to a system and method for optimizing testing of software production incidents. In one embodiment, the method comprises analyzing an incident ticket using a machine learning algorithm to identify one or more keywords in the incident ticket, and identifying a location of the incident ticket based on the one or more keywords, a test workspace corresponding to the incident ticket based on the location, and a plurality of specific test cases corresponding to the incident ticket based on the test workspace. The identification leads to a first scenario and a second scenario. In the first scenario, the method further comprises initiating a learning process based on intelligence gathered from a manual processing of the incident ticket. In the second scenario, the method further comprises executing the plurality of specific test cases in a test environment. Figure 3",G06F11/3684,"Test management for test design, e.g. generating new test cases",,,Subramanian Jayaraman Venkata,"['EP3187438A1', 'US10223243B2', 'US10990915B2', 'US10042636B1', 'US10540263B1', 'US10990516B1', 'US10613856B2', 'US10572374B2', 'US11030547B2', 'US10713109B2', 'US20190108486A1', 'US10162740B1', 'US10735271B2', 'US10678682B2', 'US10949329B2', 'US11843628B2', 'US10289403B1', 'US10585659B2', 'US11514267B2', 'US11042581B2', 'CN111142410A', 'EP3706269B1', 'EP3706270B1', 'US11221942B2', 'US10956301B2', 'US11556843B2', 'US11093365B2', 'US11115137B2', 'US11119747B2', 'US11144437B2', 'US11188451B2', 'US11841836B2', 'US11256609B1']","['US7020697B1', 'US6701514B1', 'US6502102B1', 'US6907546B1', 'US7403901B1', 'US7225139B1', 'US7516438B1', 'US6782518B2', 'US7167870B2', 'US20050081079A1', 'US20060206867A1', 'US8832047B2', 'US7610512B2', 'US8205191B1', 'US7844861B2', 'US7958495B2', 'US7730005B2', 'US8458662B2', 'US8151276B2', 'US8276123B1', 'US8347147B2', 'US8539282B1', 'US20120254333A1', 'US8694966B2', 'US8473916B2', 'US9141378B2', 'US20130074043A1', 'US9038026B2', 'US20130311968A1', 'US8972788B2', 'US20180075457A9', 'US9015664B2', 'US20130339930A1', 'US9535818B2', 'US8660952B1', 'US9317829B2', 'US9256746B2', 'US9002763B2', 'US20140245264A1', 'US9299031B2', 'US10031841B2', 'US20150026664A1', 'IN2013MU03023A', 'US9430359B1', 'US9135146B1']","['EP3187438A1', 'US10223243B2', 'US10990915B2', 'US10042636B1', 'US10540263B1', 'US10990516B1', 'US10613856B2', 'US10572374B2', 'US11030547B2', 'US10713109B2', 'US20190108486A1', 'US10162740B1', 'US10735271B2', 'US10678682B2', 'US10949329B2', 'US11843628B2', 'US10289403B1', 'US10585659B2', 'US11514267B2', 'US11042581B2', 'CN111142410A', 'EP3706269B1', 'EP3706270B1', 'US11221942B2', 'US10956301B2', 'US11556843B2', 'US11093365B2', 'US11115137B2', 'US11119747B2', 'US11144437B2', 'US11188451B2', 'US11841836B2', 'US11256609B1', 'US7020697B1', 'US6701514B1', 'US6502102B1', 'US6907546B1', 'US7403901B1', 'US7225139B1', 'US7516438B1', 'US6782518B2', 'US7167870B2', 'US20050081079A1', 'US20060206867A1', 'US8832047B2', 'US7610512B2', 'US8205191B1', 'US7844861B2', 'US7958495B2', 'US7730005B2', 'US8458662B2', 'US8151276B2', 'US8276123B1', 'US8347147B2', 'US8539282B1', 'US20120254333A1', 'US8694966B2', 'US8473916B2', 'US9141378B2', 'US20130074043A1', 'US9038026B2', 'US20130311968A1', 'US8972788B2', 'US20180075457A9', 'US9015664B2', 'US20130339930A1', 'US9535818B2', 'US8660952B1', 'US9317829B2', 'US9256746B2', 'US9002763B2', 'US20140245264A1', 'US9299031B2', 'US10031841B2', 'US20150026664A1', 'IN2013MU03023A', 'US9430359B1', 'US9135146B1']",['CN111142410A'],['IN2013MU03023A'],"['CN111142410A', 'IN2013MU03023A']"
+IN2014DN03048A,Patent IN2014DN03048A ,IN,2015-05-08,This vehicle control device is equipped with: an engine (3); a power transmission device (5) that transmits power from the engine (3) to the drive wheels (4); a mechanical pump (31) that supplies oil for operating the power transmission device (5) to the power transmission device (5) by means of the driving of the engine (3); and an electric pump (33) that supplies oil to the power transmission device (5) by means of the driving of a motor (32). In addition this vehicle control device is capable of executing a stopped economy running control wherein the engine (3) is stopped when the vehicle is stopped and a travel economy running control wherein the engine (3) is stopped while the vehicle is travelling. This vehicle control device is configured such that during the execution of stopped economy running control a learning control is implemented whereby a control value for controlling the oil pressure is updated such that the actual oil pressure generated by the electric pump (33) converges to a target value but during the execution of travel economy running control the learning control is prohibited. Thus it is possible to prevent mislearning of the characteristics of the electric pump.,F02D29/00,"Controlling engines, such controlling being peculiar to the devices driven thereby, the devices being other than parts or accessories essential to engine operation, e.g. controlling of engines by signals external thereto",,,Satoshi Yamanaka,"['JP6241728B2', 'JP2015102190A', 'KR101601489B1', 'EP3276214A4', 'JP6429697B2', 'WO2016174636A1', 'JP6190858B2', 'US9903468B2', 'DE112017005439T5', 'US10106150B2', 'JP7176540B2', 'KR20220132982A']","['JP3141823B2', 'JP3518406B2', 'JP2000291450A', 'JP3925111B2', 'JP4529335B2', 'JP3994969B2', 'JP4711661B2', 'JP4760006B2', 'JP4319151B2', 'JP4251200B2', 'DE112007000539B4', 'US7544151B2', 'CN102057155B', 'JP2010001759A', 'JP4722171B2', 'JP2011208698A', 'JP5348048B2', 'JP5054800B2', 'CN103703265B', 'WO2013153608A1', 'KR101786653B1', 'US9026323B2']","['JP6241728B2', 'JP2015102190A', 'KR101601489B1', 'EP3276214A4', 'JP6429697B2', 'WO2016174636A1', 'JP6190858B2', 'US9903468B2', 'DE112017005439T5', 'US10106150B2', 'JP7176540B2', 'KR20220132982A', 'JP3141823B2', 'JP3518406B2', 'JP2000291450A', 'JP3925111B2', 'JP4529335B2', 'JP3994969B2', 'JP4711661B2', 'JP4760006B2', 'JP4319151B2', 'JP4251200B2', 'DE112007000539B4', 'US7544151B2', 'CN102057155B', 'JP2010001759A', 'JP4722171B2', 'JP2011208698A', 'JP5348048B2', 'JP5054800B2', 'CN103703265B', 'WO2013153608A1', 'KR101786653B1', 'US9026323B2']",[],"['CN102057155B', 'CN103703265B']","['CN102057155B', 'CN103703265B']"
+IN2014CH00346A,Patent IN2014CH00346A ,IN,2015-04-03,A method of rotating an original image includes performing a self-learning using addresses related to at least one page miss and generating address generation rules using a result of the self-learning. The method includes pre-fetching the original image from a memory device based on the address generation rules to obtain a pre-fetched image and generating a rotated image using the pre-fetched image. Figure 20,G06T3/60,Rotation of whole images or parts thereof,,,Min Woo Song,"['US9727797B2', 'JP6402432B2', 'US11429301B2', 'CN113539159B']","['US4943908A', 'US5305389A', 'JPH07325753A', 'US5793901A', 'US6226016B1', 'JPH10208031A', 'CA2252751C', 'US6633968B2', 'JP2001103292A', 'US6560693B1', 'JP2004072600A', 'US7376286B2', 'JP4123368B2', 'US20050275665A1', 'JP4531484B2', 'JP2006301724A', 'US7876977B2', 'DE102007035204A1', 'US7971253B1', 'JP2010086008A', 'US8195917B2', 'CN101719104B', 'US9081501B2', 'TWI426465B', 'KR101766833B1', 'KR101872430B1', 'US8797359B2']","['US9727797B2', 'JP6402432B2', 'US11429301B2', 'CN113539159B', 'US4943908A', 'US5305389A', 'JPH07325753A', 'US5793901A', 'US6226016B1', 'JPH10208031A', 'CA2252751C', 'US6633968B2', 'JP2001103292A', 'US6560693B1', 'JP2004072600A', 'US7376286B2', 'JP4123368B2', 'US20050275665A1', 'JP4531484B2', 'JP2006301724A', 'US7876977B2', 'DE102007035204A1', 'US7971253B1', 'JP2010086008A', 'US8195917B2', 'CN101719104B', 'US9081501B2', 'TWI426465B', 'KR101766833B1', 'KR101872430B1', 'US8797359B2']",['CN113539159B'],['CN101719104B'],"['CN113539159B', 'CN101719104B']"
+IN2015DN03877A,Patent IN2015DN03877A ,IN,2015-10-02,A behavioral recognition system may include both a computer vision engine and a machine learning engine configured to observe and learn patterns of behavior in video data. Certain embodiments may provide image stabilization of a video stream obtained from a camera. An image stabilization module in the behavioral recognition system obtains a reference image from the video stream. The image stabilization module identifies alignment regions within the reference image based on the regions of the image that are dense with features. Upon determining that the tracked features of a current image is out of alignment with the reference image the image stabilization module uses the most feature dense alignment region to estimate an affine transformation matrix to apply to the entire current image to warp the image into proper alignment.,G06T7/246,"Analysis of motion using feature-based methods, e.g. the tracking of corners or segments",,,Kishor Adinath Saitwal,"['US9232140B2', 'US9286693B2', 'KR102069269B1', 'US10136063B2', 'EP3031004A4', 'US9997081B2', 'JP6242742B2', 'US9621741B2', 'JP6600232B2', 'US9858340B1', 'CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'US10748057B1', 'CN106904118A', 'CN106713702A', 'WO2018148574A1', 'DE102017206429A1', 'US10438322B2', 'JP6904843B2', 'US11989861B2', 'US10600158B2', 'US10453220B1', 'CN110033425B', 'CN108347549B', 'WO2019191002A1', 'CN108871185B', 'US10771698B2', 'CN109089015B', 'US11200424B2', 'JP2020060531A', 'CN110188754B', 'US11151695B1', 'CN113132560B', 'WO2021186961A1', 'CN112465728B', 'JP2023553153A', 'CN112991446A', 'CN115209031B', 'US11975263B2', 'EP4239590A1', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B']","['US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US7076102B2', 'US5969755A', 'US6567564B1', 'US5751378A', 'US6263088B1', 'US6285711B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US7868912B2', 'US6678413B1', 'KR100540889B1', 'US7424175B2', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7119837B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'US7606417B2', 'US7026979B2', 'US7127083B2', 'US20060018516A1', 'JP4928451B2', 'JP2006080437A', 'KR100603618B1', 'US7447337B2', 'JP4755490B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7825954B2', 'US7460730B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'US7916944B2', 'PL2118864T3', 'JP2008203992A', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8064639B2', 'WO2009049314A2', 'TWI381719B', 'EP2093698A1', 'US8452108B2', 'US8102428B2', 'US8121968B2', 'US9373055B2', 'US8054881B2', 'US20100246675A1', 'US9083845B2', 'US8724854B2', 'US8675997B2', 'WO2013091181A1', 'EP2867860A4', 'US9232140B2']","['US9232140B2', 'US9286693B2', 'KR102069269B1', 'US10136063B2', 'EP3031004A4', 'US9997081B2', 'JP6242742B2', 'US9621741B2', 'JP6600232B2', 'US9858340B1', 'CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'US10748057B1', 'CN106904118A', 'CN106713702A', 'WO2018148574A1', 'DE102017206429A1', 'US10438322B2', 'JP6904843B2', 'US11989861B2', 'US10600158B2', 'US10453220B1', 'CN110033425B', 'CN108347549B', 'WO2019191002A1', 'CN108871185B', 'US10771698B2', 'CN109089015B', 'US11200424B2', 'JP2020060531A', 'CN110188754B', 'US11151695B1', 'CN113132560B', 'WO2021186961A1', 'CN112465728B', 'JP2023553153A', 'CN112991446A', 'CN115209031B', 'US11975263B2', 'EP4239590A1', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B', 'US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US7076102B2', 'US5969755A', 'US6567564B1', 'US5751378A', 'US6263088B1', 'US6285711B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US7868912B2', 'US6678413B1', 'KR100540889B1', 'US7424175B2', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7119837B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'US7606417B2', 'US7026979B2', 'US7127083B2', 'US20060018516A1', 'JP4928451B2', 'JP2006080437A', 'KR100603618B1', 'US7447337B2', 'JP4755490B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7825954B2', 'US7460730B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'US7916944B2', 'PL2118864T3', 'JP2008203992A', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8064639B2', 'WO2009049314A2', 'TWI381719B', 'EP2093698A1', 'US8452108B2', 'US8102428B2', 'US8121968B2', 'US9373055B2', 'US8054881B2', 'US20100246675A1', 'US9083845B2', 'US8724854B2', 'US8675997B2', 'WO2013091181A1', 'EP2867860A4', 'US9232140B2']","['CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'CN106904118A', 'CN106713702A', 'CN110033425B', 'CN108347549B', 'CN108871185B', 'CN109089015B', 'CN110188754B', 'CN113132560B', 'CN112465728B', 'CN112991446A', 'CN115209031B', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B']","['ZA962306B', 'CN101410855B']","['CN106227242A', 'CN106314342A', 'CN106218573A', 'CN106364445A', 'CN106357754A', 'CN106331641A', 'CN106341657A', 'CN106347220A', 'CN106341655A', 'CN106347277A', 'CN106218575A', 'CN106364440A', 'CN106320854A', 'CN106904118A', 'CN106713702A', 'CN110033425B', 'CN108347549B', 'CN108871185B', 'CN109089015B', 'CN110188754B', 'CN113132560B', 'CN112465728B', 'CN112991446A', 'CN115209031B', 'CN114638856A', 'CN114531549B', 'CN116193231B', 'CN115567658B', 'CN116506732B', 'ZA962306B', 'CN101410855B']"
+IN2014DN10277A,Patent IN2014DN10277A ,IN,2015-08-07,Various method and apparatus embodiments for training a delay for enabling a data strobe signal in a memory subsystem are disclosed. In one embodiment a system includes a memory controller configured to receive a data strobe signal. The memory controller includes a training circuit. The training circuit includes a first storage circuit coupled to receive the data strobe signal on a data input and an enable signal on a clock input and a training unit configured to based on an output signal received from the first flip flop adjust a phase of the enable signal until an assertion of the enable signal coincides with a preamble indication in the data strobe signal.,G11C7/22,Read-write [R-W] timing or clocking circuits; Read-write [R-W] control signal generators or management,,,Glenn A Dearth,"['US9607714B2', 'US20140181452A1', 'US9824772B2', 'US9378169B2', 'US9190129B2', 'US9478268B2', 'KR20160147517A', 'KR102472123B1', 'US10331195B2', 'US10103837B2', 'US10749756B2', 'KR102536657B1', 'US10311236B2', 'KR102649888B1', 'KR102671708B1', 'US10545866B1', 'JP6890055B2', 'KR102273191B1', 'KR102447499B1', 'CN108922570B', 'JP2020046918A', 'KR102691395B1', 'US10622982B1', 'CN113450852B', 'KR20210136203A', 'JP2022146543A', 'KR102707477B1', 'US11967960B2', 'US12068021B2', 'CN116501268B']","['KR100543910B1', 'US20050050375A1', 'KR100605588B1', 'US7543172B2', 'US7457175B1', 'US8504788B2', 'US7886174B2', 'US7924637B2', 'KR101040242B1', 'US8385144B2', 'JP5733126B2']","['US9607714B2', 'US20140181452A1', 'US9824772B2', 'US9378169B2', 'US9190129B2', 'US9478268B2', 'KR20160147517A', 'KR102472123B1', 'US10331195B2', 'US10103837B2', 'US10749756B2', 'KR102536657B1', 'US10311236B2', 'KR102649888B1', 'KR102671708B1', 'US10545866B1', 'JP6890055B2', 'KR102273191B1', 'KR102447499B1', 'CN108922570B', 'JP2020046918A', 'KR102691395B1', 'US10622982B1', 'CN113450852B', 'KR20210136203A', 'JP2022146543A', 'KR102707477B1', 'US11967960B2', 'US12068021B2', 'CN116501268B', 'KR100543910B1', 'US20050050375A1', 'KR100605588B1', 'US7543172B2', 'US7457175B1', 'US8504788B2', 'US7886174B2', 'US7924637B2', 'KR101040242B1', 'US8385144B2', 'JP5733126B2']","['CN108922570B', 'CN113450852B', 'CN116501268B']",[],"['CN108922570B', 'CN113450852B', 'CN116501268B']"
+IN2014CN04558A,Patent IN2014CN04558A ,IN,2015-09-18,The present invention provides a compound of formula (I) or a salt thereof wherein R R R R R R A G M Q and X are as defined herein. A compound of formula (I) and its salts have a PKC inhibitory activity and may be used to treat proliferative disorders.,C07D495/04,Ortho-condensed systems,,,Bruce D Dorsey,"['US8703941B2', 'CA2863259A1', 'WO2014011902A1', 'IN2015DN00127A', 'AU2014205577A1', 'CA2925211A1', 'TWI675836B', 'CA3008171A1', 'TW201825465A', 'TW201815787A', 'TW201813963A', 'KR20180075228A', 'EP4331679A3', 'WO2019119206A1', 'CN108658999B', 'EP3632908A1', 'WO2020106825A1', 'EP3725788A1', 'CN116410205B']","['ZA782648B', 'US6187777B1', 'JP2000038350A', 'TW564247B', 'DE60026155T2', 'DE60144322D1', 'US6608053B2', 'EP1329454A1', 'US7115741B2', 'EP2198867A1', 'AU2003255845A1', 'AR044743A1', 'ES2217956B1', 'ATE425982T1', 'US20050165029A1', 'US7534767B2', 'WO2006093518A2', 'WO2006010568A2', 'DE102005013621A1', 'AU2007243457B2', 'WO2008037607A1', 'CN101675053B', 'US8809346B2', 'SG172908A1', 'EP2493895B1', 'EP2557923A4']","['US8703941B2', 'CA2863259A1', 'WO2014011902A1', 'IN2015DN00127A', 'AU2014205577A1', 'CA2925211A1', 'TWI675836B', 'CA3008171A1', 'TW201825465A', 'TW201815787A', 'TW201813963A', 'KR20180075228A', 'EP4331679A3', 'WO2019119206A1', 'CN108658999B', 'EP3632908A1', 'WO2020106825A1', 'EP3725788A1', 'CN116410205B', 'ZA782648B', 'US6187777B1', 'JP2000038350A', 'TW564247B', 'DE60026155T2', 'DE60144322D1', 'US6608053B2', 'EP1329454A1', 'US7115741B2', 'EP2198867A1', 'AU2003255845A1', 'AR044743A1', 'ES2217956B1', 'ATE425982T1', 'US20050165029A1', 'US7534767B2', 'WO2006093518A2', 'WO2006010568A2', 'DE102005013621A1', 'AU2007243457B2', 'WO2008037607A1', 'CN101675053B', 'US8809346B2', 'SG172908A1', 'EP2493895B1', 'EP2557923A4']","['IN2015DN00127A', 'CN108658999B', 'CN116410205B']","['ZA782648B', 'CN101675053B']","['IN2015DN00127A', 'CN108658999B', 'CN116410205B', 'ZA782648B', 'CN101675053B']"
+IN2012DN02779A,Patent IN2012DN02779A ,IN,2015-09-18,"Provided is diagnostic equipment for selecting a data item to be used for a diagnosis on the basis of operation history information of an operator. Plant diagnostic equipment receives a measurement signal of a plant and an operation signal of a time of operation performed by an operator using an external input device and displays a state of the plant on an image display device as display information. The plant diagnostic equipment includes a measurement signal database for storing the measurement signal of the plant, an operation history database for storing the operation signal of a time of the operation performed by the operator using the external input device, and learning means for extracting a data item to be used for a diagnosis of the plant from the display information displayed on the image display device by the operation performed by the operator using the external input device when an abnormality in the plant occurs.",G05B23/0221,"Preprocessing measurements, e.g. data collection rate adjustment; Standardization of measurements; Time series or signal analysis, e.g. frequency analysis or wavelets; Trustworthiness of measurements; Indexes therefor; Measurements using easily measured parameters to estimate parameters difficult to measure; Virtual sensor creation; De-noising; Sensor fusion; Unconventional preprocessing inherently present in specific fault detection methods like PCA-based methods",,,Takaaki Sekiai,"['CN103454515B', 'JP6078019B2', 'JP6685124B2', 'JP6620056B2', 'JP6591937B2', 'JP2018106432A', 'JP6842299B2', 'JP6756374B2', 'US10838413B2', 'JP6861653B2', 'JP7180985B2', 'MX2021001101A', 'WO2020027207A1', 'JP7184636B2', 'CN109885951A']","['JP2004206583A', 'JP4676149B2', 'JP4922597B2', 'JP4641537B2']","['CN103454515B', 'JP6078019B2', 'JP6685124B2', 'JP6620056B2', 'JP6591937B2', 'JP2018106432A', 'JP6842299B2', 'JP6756374B2', 'US10838413B2', 'JP6861653B2', 'JP7180985B2', 'MX2021001101A', 'WO2020027207A1', 'JP7184636B2', 'CN109885951A', 'JP2004206583A', 'JP4676149B2', 'JP4922597B2', 'JP4641537B2']","['CN103454515B', 'CN109885951A']",[],"['CN103454515B', 'CN109885951A']"
+IN2014CN00567A,Patent IN2014CN00567A ,IN,2015-04-03,Methods and apparatuses are provided for facilitating access controls for digital objects stored within a peer to peer overlay network. A privacy preserving method is provided for matching identities between a first peer node and a second peer node in a peer to peer network. Such identity matching may be used for example to ascertain whether the first peer node should provide access to certain digital object stored in the peer to peer overlay network. Rather than providing its identities in an unprotected format the second peer may provide its identities to the first peer node in a concealed representation so as to prevent the first peer from learning about non matching identities. Such concealed representation may be a data structure that cryptographically conceals one or more identities of the second peer node or a user of the second peer node within a shared data space of the data structure.,H04L67/104,Peer-to-peer [P2P] networks,,,Yinian Mao,"['US9189650B2', 'US9226231B2', 'US9892026B2', 'US9872232B2', 'US11487732B2', 'US9912594B2', 'JP6348004B2', 'JP6282779B2', 'US9298934B1', 'CN105071931B', 'US9590956B1', 'US9980135B2', 'CN106790304A', 'US11481360B2', 'CN107040540B', 'EP3629614A4', 'US11068540B2', 'CN109067791B', 'CN110263555A', 'CN111026972B']","['US7613796B2', 'JP4551202B2', 'EP1890451A1', 'US8132005B2', 'US8788807B2', 'JP4903028B2', 'US9838365B2', 'US9301121B2', 'JP2009301207A', 'CN101729583A', 'US8874769B2']","['US9189650B2', 'US9226231B2', 'US9892026B2', 'US9872232B2', 'US11487732B2', 'US9912594B2', 'JP6348004B2', 'JP6282779B2', 'US9298934B1', 'CN105071931B', 'US9590956B1', 'US9980135B2', 'CN106790304A', 'US11481360B2', 'CN107040540B', 'EP3629614A4', 'US11068540B2', 'CN109067791B', 'CN110263555A', 'CN111026972B', 'US7613796B2', 'JP4551202B2', 'EP1890451A1', 'US8132005B2', 'US8788807B2', 'JP4903028B2', 'US9838365B2', 'US9301121B2', 'JP2009301207A', 'CN101729583A', 'US8874769B2']","['CN105071931B', 'CN106790304A', 'CN107040540B', 'CN109067791B', 'CN110263555A', 'CN111026972B']",['CN101729583A'],"['CN105071931B', 'CN106790304A', 'CN107040540B', 'CN109067791B', 'CN110263555A', 'CN111026972B', 'CN101729583A']"
+IN2013MU03025A,Patent IN2013MU03025A ,IN,2015-07-03,"System and method for evaluating a cognitive load on a user, corresponding to a stimulus is disclosed. Electroencephalogram (EEG) data corresponding to the stimulus of a user is received. The stimulus corresponds to a mental task performed by the user. The EEG data is split into a plurality of slots. A slot of the plurality of slots comprises a subset of the EEG data. One or more EEG features are extracted from the subset of the EEG data. The one or more EEG features are represented in one of a frequency domain and a time domain. A plurality of data points present in the one or more EEG features is grouped into two or more clusters using an unsupervised learning technique. The two or more clusters comprise one or more data points of the plurality of data points. The one or more data points correspond to a level of the cognitive load.",A61B5/369,Electroencephalography [EEG],,,Diptesh Das,"['US10068490B2', 'SG11201802853SA', 'US11504038B2', 'WO2018217994A1', 'CN107260166A', 'CN107341359A', 'CA3073111C', 'EP3684463A4', 'US11717686B2', 'US11478603B2', 'US11364361B2', 'CN109009171B', 'WO2020056418A1', 'CN109567797B', 'CN109875580A', 'US11786694B2', 'CN111008590B', 'CN113159222A']","['US8374687B2', 'US7580742B2', 'WO2008057365A2', 'US8265743B2', 'AU2008356919A1', 'CN102573619B', 'US8758018B2', 'US9538934B2', 'FR2962821B1', 'US9195321B2']","['US10068490B2', 'SG11201802853SA', 'US11504038B2', 'WO2018217994A1', 'CN107260166A', 'CN107341359A', 'CA3073111C', 'EP3684463A4', 'US11717686B2', 'US11478603B2', 'US11364361B2', 'CN109009171B', 'WO2020056418A1', 'CN109567797B', 'CN109875580A', 'US11786694B2', 'CN111008590B', 'CN113159222A', 'US8374687B2', 'US7580742B2', 'WO2008057365A2', 'US8265743B2', 'AU2008356919A1', 'CN102573619B', 'US8758018B2', 'US9538934B2', 'FR2962821B1', 'US9195321B2']","['CN107260166A', 'CN107341359A', 'CN109009171B', 'CN109567797B', 'CN109875580A', 'CN111008590B', 'CN113159222A']",['CN102573619B'],"['CN107260166A', 'CN107341359A', 'CN109009171B', 'CN109567797B', 'CN109875580A', 'CN111008590B', 'CN113159222A', 'CN102573619B']"
+IN2014CN02463A,Patent IN2014CN02463A ,IN,2015-06-19,123456A compound represented by formula (I) or a pharmacologically acceptable salt thereof which has an inhibitory effect on PDE9 and therefore is expected as being capable of increasing the cGMP level in the brain. Since the inhibitory effect on PDE9 and an increase in the cGMP level contribute to improvement in learning and memory behavior the aforesaid compound or a pharmacologically acceptable salt thereof would be available as a remedy for cognitive dysfunction in Alzheimer s disease. In formula (I): R represents a hydrogen atom; R represents an aromatic ring group etc.; R represents a hydrogen atom etc.; R represents a hydrogen atom; R represents an oxepanyl group etc.; and R represents a hydrogen atom.,C07D471/04,Ortho-condensed systems,,,Yoshihiko Norimine,"['SG11201502728WA', 'SG11201507897SA', 'CN105189496B', 'GB201406486D0', 'WO2016021192A1', 'PT3865484T', 'WO2017046606A1', 'CN107056690A', 'BR112019023557A2', 'MX2019013397A', 'JP7177772B2', 'ES2980131T3', 'CN111630042A', 'SI3801526T1', 'EP3843737A4', 'CA3122183A1', 'EP3965770A4', 'CA3139109A1', 'AU2020270125A1', 'US11883461B2', 'WO2021150613A1', 'US20210355121A1', 'US11739102B2', 'MX2022016551A', 'US11999752B2', 'WO2022072783A1', 'US12077539B2', 'WO2023049697A1', 'WO2023056421A1', 'KR20240101561A']","['RU2426734C2', 'US20060035920A1', 'CA2622605A1', 'JP2009184924A', 'WO2008072779A1', 'JP4579346B2', 'UA105362C2', 'AU2010219598A1', 'ES2460019T3', 'US8880976B2', 'SI2615089T1', 'JP6042060B2']","['SG11201502728WA', 'SG11201507897SA', 'CN105189496B', 'GB201406486D0', 'WO2016021192A1', 'PT3865484T', 'WO2017046606A1', 'CN107056690A', 'BR112019023557A2', 'MX2019013397A', 'JP7177772B2', 'ES2980131T3', 'CN111630042A', 'SI3801526T1', 'EP3843737A4', 'CA3122183A1', 'EP3965770A4', 'CA3139109A1', 'AU2020270125A1', 'US11883461B2', 'WO2021150613A1', 'US20210355121A1', 'US11739102B2', 'MX2022016551A', 'US11999752B2', 'WO2022072783A1', 'US12077539B2', 'WO2023049697A1', 'WO2023056421A1', 'KR20240101561A', 'RU2426734C2', 'US20060035920A1', 'CA2622605A1', 'JP2009184924A', 'WO2008072779A1', 'JP4579346B2', 'UA105362C2', 'AU2010219598A1', 'ES2460019T3', 'US8880976B2', 'SI2615089T1', 'JP6042060B2']","['CN105189496B', 'CN107056690A', 'BR112019023557A2', 'CN111630042A']",['RU2426734C2'],"['CN105189496B', 'CN107056690A', 'BR112019023557A2', 'CN111630042A', 'RU2426734C2']"
+IN2014CN03963A,Patent IN2014CN03963A ,IN,2015-09-04,A quick analysis tool is configured to present one or more data analysis features that are tailored to the data in a selected portion of a spreadsheet document. The quick analysis tool may provide a quick analysis tool entry button the selection of which causes a contextual user interface to be displayed. The contextual user interface facilitates a user to easily access one or more data analysis features. The quick analysis tool also provides a mechanism by which a user can preview and/or apply one or more of these data analysis features while bypassing the potentially steep learning curve and traditionally high barrier of entry for new or otherwise less advanced users of the spreadsheet application. Intermediate or otherwise more advanced users of the spreadsheet application will also benefit from the quick analysis tool because of improved efficiency for applying data analysis features to data within a spreadsheet document.,G06F40/18,"Editing, e.g. inserting or deleting of tables; using ruled lines of spreadsheets",,,Chad Barry Rothschiller,"['US20120159395A1', 'US8612874B2', 'US8689123B2', 'US9104307B2', 'US8893033B2', 'US9792017B1', 'US9202297B1', 'US10001898B1', 'US20130057587A1', 'US9146670B2', 'US9135233B2', 'US9588953B2', 'US10061473B2', 'US8793567B2', 'US9224217B2', 'US9501219B2', 'JP2014010801A', 'US9164673B2', 'US9658746B2', 'CN104520784B', 'KR101407329B1', 'US9158766B2', 'CA2838165A1', 'US20140214804A1', 'US20140245195A1', 'US10134009B2', 'US10360297B2', 'US9489368B2', 'US20150088925A1', 'CN103544250A', 'US20150169531A1', 'CN103699387B', 'US8862646B1', 'WO2015149347A1', 'KR20160143784A', 'CN105378582B', 'US20150356061A1', 'US10824799B2', 'US10585892B2', 'US10606855B2', 'KR102399588B1', 'US20160110321A1', 'US9674335B2', 'US9904456B2', 'CN104732418A', 'US9910843B2', 'US9772988B2', 'US20160253308A1', 'US10290147B2', 'US10331899B2', 'US9836444B2', 'US11775136B2', 'US12106039B2', 'US10824803B2', 'US11093703B2', 'US11726753B2', 'US10540153B2', 'US10216494B2', 'US11170164B2', 'US11080475B2', 'US10956237B2', 'CA3084152C', 'US10860656B2', 'US10996835B1', 'CN109858000B', 'US11694023B2', 'US11972204B2', 'CN112087325B', 'US12050859B2', 'US11900133B2', 'US11755829B1']","['US5040131A', 'US5375201A', 'US5619631A', 'JP2004028864A', 'US7882427B2', 'US7127672B1', 'US7933862B2', 'US20060074879A1', 'US7849395B2', 'US8549392B2', 'US8132106B2', 'JP2010218048A', 'US9275031B2']","['US20120159395A1', 'US8612874B2', 'US8689123B2', 'US9104307B2', 'US8893033B2', 'US9792017B1', 'US9202297B1', 'US10001898B1', 'US20130057587A1', 'US9146670B2', 'US9135233B2', 'US9588953B2', 'US10061473B2', 'US8793567B2', 'US9224217B2', 'US9501219B2', 'JP2014010801A', 'US9164673B2', 'US9658746B2', 'CN104520784B', 'KR101407329B1', 'US9158766B2', 'CA2838165A1', 'US20140214804A1', 'US20140245195A1', 'US10134009B2', 'US10360297B2', 'US9489368B2', 'US20150088925A1', 'CN103544250A', 'US20150169531A1', 'CN103699387B', 'US8862646B1', 'WO2015149347A1', 'KR20160143784A', 'CN105378582B', 'US20150356061A1', 'US10824799B2', 'US10585892B2', 'US10606855B2', 'KR102399588B1', 'US20160110321A1', 'US9674335B2', 'US9904456B2', 'CN104732418A', 'US9910843B2', 'US9772988B2', 'US20160253308A1', 'US10290147B2', 'US10331899B2', 'US9836444B2', 'US11775136B2', 'US12106039B2', 'US10824803B2', 'US11093703B2', 'US11726753B2', 'US10540153B2', 'US10216494B2', 'US11170164B2', 'US11080475B2', 'US10956237B2', 'CA3084152C', 'US10860656B2', 'US10996835B1', 'CN109858000B', 'US11694023B2', 'US11972204B2', 'CN112087325B', 'US12050859B2', 'US11900133B2', 'US11755829B1', 'US5040131A', 'US5375201A', 'US5619631A', 'JP2004028864A', 'US7882427B2', 'US7127672B1', 'US7933862B2', 'US20060074879A1', 'US7849395B2', 'US8549392B2', 'US8132106B2', 'JP2010218048A', 'US9275031B2']","['CN104520784B', 'CN103544250A', 'CN103699387B', 'CN105378582B', 'CN104732418A', 'CN109858000B', 'CN112087325B']",[],"['CN104520784B', 'CN103544250A', 'CN103699387B', 'CN105378582B', 'CN104732418A', 'CN109858000B', 'CN112087325B']"
+IN2014DN08342A,Patent IN2014DN08342A ,IN,2015-05-08,Alert directives and focused alert directives allow a user to provide feedback to a behavioral recognition system to always or never publish an alert for certain events. Such an approach bypasses the normal publication methods of the behavioral recognition system yet does not obstruct the system s learning procedures.,G06V20/52,"Surveillance or monitoring of activities, e.g. for recognising suspicious objects",,,Wesley Kenneth Cobb,"['US9959471B2', 'US9141863B2', 'IN2014DN08349A', 'US20140118543A1', 'US9286693B2', 'EP3031004A4', 'WO2015040929A1', 'US20150199698A1', 'WO2015122163A1', 'US10708550B2', 'WO2015157440A1', 'US11297284B2', 'US20160132722A1', 'US9501915B1', 'US10140827B2', 'US9420331B2', 'US10127783B2', 'US9754178B2', 'US9947215B2', 'USD782495S1', 'CN105574889B', 'CN105631462A', 'US20160196728A1', 'US9361011B1', 'CN107852480A', 'KR102015588B1', 'CN105184812B', 'WO2017142736A1', 'US9939635B2', 'US10628296B1', 'US9965382B2', 'USD854074S1', 'US10506237B1', 'US10957171B2', 'US10380429B2', 'US10192415B2', 'CN117864918A', 'CN106503618B', 'US10839203B1', 'CA3041148C', 'CN110651276A', 'US10699421B1', 'TW201904265A', 'US11783010B2', 'US10599950B2', 'US10296790B2', 'USD855684S1', 'US11134227B2', 'US10664688B2', 'US11232294B1', 'JPWO2019097784A1', 'WO2019104108A1', 'US11284041B1', 'US11030442B1', 'WO2019130548A1', 'US10706701B2', 'US10834365B2', 'US11615623B2', 'US11295139B2', 'US10978050B2', 'US11417109B1', 'CN110392228B', 'EP3557549B1', 'US10795933B1', 'WO2020003951A1', 'US11468698B1', 'US11468681B1', 'US11482045B1', 'EP3629226B1', 'US11488374B1', 'CN111115400B', 'USD900430S1', 'USD900428S1', 'USD900431S1', 'USD900429S1', 'SG10202005940YA', 'US11514767B2', 'US11900706B1', 'US11893795B2', 'US11398094B1', 'US11443516B1', 'JP7363838B2', 'US20220351319A1', 'CN113194297B', 'DE102021205480A1', 'US11587416B1', 'US11769394B2', 'US20230186670A1', 'WO2023058143A1', 'US11606247B1', 'US20230274551A1', 'EP4273812B1', 'WO2024103041A1']","['US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US6088468A', 'US7076102B2', 'US5969755A', 'US7650015B2', 'US5751378A', 'US6263088B1', 'US7036094B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7133537B1', 'US6795567B1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US20050162515A1', 'US7868912B2', 'US6678413B1', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'KR100696728B1', 'US7026979B2', 'US7127083B2', 'US7813525B2', 'US20060018516A1', 'JP4928451B2', 'US8589315B2', 'US7502498B2', 'JP2006080437A', 'US7746378B2', 'US7318052B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7801328B2', 'US7825954B2', 'US20090041297A1', 'US7884849B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'JP4413915B2', 'US8269834B2', 'US7916944B2', 'PL2118864T3', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8078233B1', 'US8411935B2', 'US8064639B2', 'US8175333B2', 'US8300924B2', 'US8013738B2', 'WO2009049314A2', 'US8195598B2', 'EP2093698A1', 'US7962435B2', 'US8427552B2', 'US8169481B2', 'US8452108B2', 'US8126833B2', 'US8121968B2', 'US8180712B2', 'WO2010055205A1', 'US9373055B2', 'US20100208063A1', 'US8744124B2', 'CN101557506B', 'CN101901334B', 'US8649594B1', 'US8340352B2', 'US8379085B2', 'US8493409B2', 'US8280153B2', 'US8285060B2', 'US8167430B2', 'US8270733B2', 'US8218818B2', 'US8180105B2', 'US20110134245A1', 'US8719198B2', 'US8600915B2', 'IN2014DN08349A']","['US9959471B2', 'US9141863B2', 'IN2014DN08349A', 'US20140118543A1', 'US9286693B2', 'EP3031004A4', 'WO2015040929A1', 'US20150199698A1', 'WO2015122163A1', 'US10708550B2', 'WO2015157440A1', 'US11297284B2', 'US20160132722A1', 'US9501915B1', 'US10140827B2', 'US9420331B2', 'US10127783B2', 'US9754178B2', 'US9947215B2', 'USD782495S1', 'CN105574889B', 'CN105631462A', 'US20160196728A1', 'US9361011B1', 'CN107852480A', 'KR102015588B1', 'CN105184812B', 'WO2017142736A1', 'US9939635B2', 'US10628296B1', 'US9965382B2', 'USD854074S1', 'US10506237B1', 'US10957171B2', 'US10380429B2', 'US10192415B2', 'CN117864918A', 'CN106503618B', 'US10839203B1', 'CA3041148C', 'CN110651276A', 'US10699421B1', 'TW201904265A', 'US11783010B2', 'US10599950B2', 'US10296790B2', 'USD855684S1', 'US11134227B2', 'US10664688B2', 'US11232294B1', 'JPWO2019097784A1', 'WO2019104108A1', 'US11284041B1', 'US11030442B1', 'WO2019130548A1', 'US10706701B2', 'US10834365B2', 'US11615623B2', 'US11295139B2', 'US10978050B2', 'US11417109B1', 'CN110392228B', 'EP3557549B1', 'US10795933B1', 'WO2020003951A1', 'US11468698B1', 'US11468681B1', 'US11482045B1', 'EP3629226B1', 'US11488374B1', 'CN111115400B', 'USD900430S1', 'USD900428S1', 'USD900431S1', 'USD900429S1', 'SG10202005940YA', 'US11514767B2', 'US11900706B1', 'US11893795B2', 'US11398094B1', 'US11443516B1', 'JP7363838B2', 'US20220351319A1', 'CN113194297B', 'DE102021205480A1', 'US11587416B1', 'US11769394B2', 'US20230186670A1', 'WO2023058143A1', 'US11606247B1', 'US20230274551A1', 'EP4273812B1', 'WO2024103041A1', 'US4679077A', 'US5113507A', 'JP3123587B2', 'ZA962306B', 'US6088468A', 'US7076102B2', 'US5969755A', 'US7650015B2', 'US5751378A', 'US6263088B1', 'US7036094B1', 'US6711278B1', 'US6570608B1', 'WO2000034919A1', 'US7133537B1', 'US6795567B1', 'US7136525B1', 'US6674877B1', 'US6940998B2', 'US20050162515A1', 'US7868912B2', 'US6678413B1', 'US20030107650A1', 'US20060165386A1', 'US7436887B2', 'US6856249B2', 'US7006128B2', 'US7227893B1', 'US7200266B2', 'US6999600B2', 'KR100696728B1', 'US7026979B2', 'US7127083B2', 'US7813525B2', 'US20060018516A1', 'JP4928451B2', 'US8589315B2', 'US7502498B2', 'JP2006080437A', 'US7746378B2', 'US7318052B2', 'US7620266B2', 'US20060190419A1', 'WO2006097681A1', 'US20060222206A1', 'US7801328B2', 'US7825954B2', 'US20090041297A1', 'US7884849B2', 'US20070250898A1', 'CN101410855B', 'EP2013817A2', 'US8467570B2', 'JP4413915B2', 'US8269834B2', 'US7916944B2', 'PL2118864T3', 'WO2008103929A2', 'US8086036B2', 'US7813528B2', 'US8078233B1', 'US8411935B2', 'US8064639B2', 'US8175333B2', 'US8300924B2', 'US8013738B2', 'WO2009049314A2', 'US8195598B2', 'EP2093698A1', 'US7962435B2', 'US8427552B2', 'US8169481B2', 'US8452108B2', 'US8126833B2', 'US8121968B2', 'US8180712B2', 'WO2010055205A1', 'US9373055B2', 'US20100208063A1', 'US8744124B2', 'CN101557506B', 'CN101901334B', 'US8649594B1', 'US8340352B2', 'US8379085B2', 'US8493409B2', 'US8280153B2', 'US8285060B2', 'US8167430B2', 'US8270733B2', 'US8218818B2', 'US8180105B2', 'US20110134245A1', 'US8719198B2', 'US8600915B2', 'IN2014DN08349A']","['IN2014DN08349A', 'CN105574889B', 'CN105631462A', 'CN107852480A', 'CN105184812B', 'CN117864918A', 'CN106503618B', 'CN110651276A', 'CN110392228B', 'CN111115400B', 'CN113194297B']","['ZA962306B', 'CN101410855B', 'CN101557506B', 'CN101901334B', 'IN2014DN08349A']","['IN2014DN08349A', 'CN105574889B', 'CN105631462A', 'CN107852480A', 'CN105184812B', 'CN117864918A', 'CN106503618B', 'CN110651276A', 'CN110392228B', 'CN111115400B', 'CN113194297B', 'ZA962306B', 'CN101410855B', 'CN101557506B', 'CN101901334B', 'IN2014DN08349A']"
+IN2013MU01148A,Patent IN2013MU01148A ,IN,2015-04-24,"A system and method for biometric authentication of a user by virtue of a personalised identification and associated biometric data therewith is disclosed. A plurality of personalised identifiers and biometric data is captured from a number of users and stored in a repository as first set of recoids. The process of authentication is divided into two phases. In the first phase, either a speech recognition or character recognition process is applied in order to determine the text spoken or written by the user. Subsequently a few records are fetched from the repository on the basis of text mapping. In the second phase, biometric authentication is performed by comparing the biometric sample with the stored biometric data corresponding to the fetched records to uniquely identify a single user. Further a machine learning technique is applied in order to periodically refine a plurality of models stored in the repository.",G06F21/32,"User authentication using biometric data, e.g. fingerprints, iris scans or voiceprints",,,Sachin Kumar Agrawal,"['US9141955B2', 'US9754132B2', 'US9305260B2', 'US10042422B2', 'US20150124566A1', 'US11921471B2', 'US10188309B2', 'US10395198B2', 'US9720559B2', 'CN104639517B', 'US9747428B2', 'US9405893B2', 'KR20150125464A', 'US9529987B2', 'US10440019B2', 'US9531710B2', 'US9880632B2', 'US9424412B1', 'CN104616655B', 'US10339467B2', 'US10044710B2', 'KR101752480B1', 'US10536464B2', 'US10771969B2', 'WO2018022657A1', 'US11331045B1', 'CN110312471B', 'WO2018022597A1', 'WO2020112986A1', 'US11216069B2', 'WO2018022602A1', 'US10864444B1', 'US10555172B2', 'RU2637999C1', 'FR3058558B1', 'WO2018090011A1', 'US20180232508A1', 'JP2018136625A', 'WO2019079757A1', 'US10878072B2', 'WO2019137631A1', 'US10853463B2', 'US11907423B2', 'US11481030B2', 'US11493993B2', 'EP3743892A4', 'US11150730B1', 'US11961494B1', 'US10937414B2', 'US11138333B2', 'US11502841B2', 'US11170084B2', 'US10721070B2', 'US10938852B1', 'US11210375B2', 'US11265168B2', 'US11392802B2', 'US11489866B2', 'US11789699B2', 'US11394552B2', 'US10592001B2', 'EP3801743B1', 'WO2019231911A1', 'US10880299B2', 'EP3807795A4', 'US20220121735A1', 'WO2020018892A1', 'EP3836836B1', 'US11289097B2', 'WO2020047429A1', 'EP3853698A4', 'WO2020069181A1', 'WO2020072915A1', 'CN113396422B', 'US10905383B2', 'WO2020204894A1', 'US10719596B1', 'KR20220044530A', 'CA3150735A1', 'WO2021051023A1', 'CN110929868B', 'US12089953B1', 'WO2021152755A1', 'US11263503B2', 'US11868531B1', 'KR102390427B1', 'US11783334B2']","['US4621334A', 'US5764789A', 'US5802199A', 'US6044375A', 'US6356868B1', 'US6490560B1', 'EP2224368B1', 'US20030163739A1', 'KR100479338B1', 'US7606790B2', 'JP2004287674A', 'US7386448B1', 'US8458465B1', 'JP2007213389A', 'US8200506B2', 'US20110047605A1', 'DE102007011831A1', 'US20090276355A1', 'US8010674B2', 'US8536976B2', 'US8516562B2', 'US20090327883A1', 'US9099085B2', 'DE102008058883B4', 'US20100228692A1', 'US8660842B2', 'EP2648163B1', 'US8694315B1', 'GB2517952B']","['US9141955B2', 'US9754132B2', 'US9305260B2', 'US10042422B2', 'US20150124566A1', 'US11921471B2', 'US10188309B2', 'US10395198B2', 'US9720559B2', 'CN104639517B', 'US9747428B2', 'US9405893B2', 'KR20150125464A', 'US9529987B2', 'US10440019B2', 'US9531710B2', 'US9880632B2', 'US9424412B1', 'CN104616655B', 'US10339467B2', 'US10044710B2', 'KR101752480B1', 'US10536464B2', 'US10771969B2', 'WO2018022657A1', 'US11331045B1', 'CN110312471B', 'WO2018022597A1', 'WO2020112986A1', 'US11216069B2', 'WO2018022602A1', 'US10864444B1', 'US10555172B2', 'RU2637999C1', 'FR3058558B1', 'WO2018090011A1', 'US20180232508A1', 'JP2018136625A', 'WO2019079757A1', 'US10878072B2', 'WO2019137631A1', 'US10853463B2', 'US11907423B2', 'US11481030B2', 'US11493993B2', 'EP3743892A4', 'US11150730B1', 'US11961494B1', 'US10937414B2', 'US11138333B2', 'US11502841B2', 'US11170084B2', 'US10721070B2', 'US10938852B1', 'US11210375B2', 'US11265168B2', 'US11392802B2', 'US11489866B2', 'US11789699B2', 'US11394552B2', 'US10592001B2', 'EP3801743B1', 'WO2019231911A1', 'US10880299B2', 'EP3807795A4', 'US20220121735A1', 'WO2020018892A1', 'EP3836836B1', 'US11289097B2', 'WO2020047429A1', 'EP3853698A4', 'WO2020069181A1', 'WO2020072915A1', 'CN113396422B', 'US10905383B2', 'WO2020204894A1', 'US10719596B1', 'KR20220044530A', 'CA3150735A1', 'WO2021051023A1', 'CN110929868B', 'US12089953B1', 'WO2021152755A1', 'US11263503B2', 'US11868531B1', 'KR102390427B1', 'US11783334B2', 'US4621334A', 'US5764789A', 'US5802199A', 'US6044375A', 'US6356868B1', 'US6490560B1', 'EP2224368B1', 'US20030163739A1', 'KR100479338B1', 'US7606790B2', 'JP2004287674A', 'US7386448B1', 'US8458465B1', 'JP2007213389A', 'US8200506B2', 'US20110047605A1', 'DE102007011831A1', 'US20090276355A1', 'US8010674B2', 'US8536976B2', 'US8516562B2', 'US20090327883A1', 'US9099085B2', 'DE102008058883B4', 'US20100228692A1', 'US8660842B2', 'EP2648163B1', 'US8694315B1', 'GB2517952B']","['CN104639517B', 'CN104616655B', 'CN110312471B', 'RU2637999C1', 'CN113396422B', 'CN110929868B']",[],"['CN104639517B', 'CN104616655B', 'CN110312471B', 'RU2637999C1', 'CN113396422B', 'CN110929868B']"
+IN2014MN02173A,Patent IN2014MN02173A ,IN,2015-08-28,Methods systems and devices for generating data models in a client cloud communication system may include applying machine learning techniques to generate a first family of classifier models that describe a cloud corpus of behavior vectors. Such vectors may be analyzed to identify factors in the first family of classifier models that have the highest probably of enabling a mobile device to conclusively determine whether a mobile device behavior is malicious or benign. Based on this analysis a a second family of classifier models may be generated that identify significantly fewer factors and data points as being relevant for enabling the mobile device to conclusively determine whether the mobile device behavior is malicious or benign based on the determined factors. A mobile device classifier module based on the second family of classifier models may be generated and made available for download by mobile devices including devices contributing behavior vectors.,G06N20/00,Machine learning,,,Rajarshi Gupta,"['US9324034B2', 'US9609456B2', 'US9690635B2', 'US9298494B2', 'US9202047B2', 'US9495537B2', 'US9747440B2', 'US9330257B2', 'US9319897B2', 'US11126720B2', 'KR20150084970A', 'US9684870B2', 'US10089582B2', 'US9686023B2', 'US9742559B2', 'EP2949144B1', 'US9491187B2', 'US9591003B2', 'WO2015112760A1', 'US9684787B2', 'US9213941B2', 'US20150324688A1', 'US9826338B2', 'US10613046B2', 'US20160245686A1', 'US10648735B2', 'US10638295B2', 'US10599982B2', 'US10481195B2', 'US20160245279A1', 'US20160313216A1', 'US9875357B2', 'US20160232353A1', 'US20160350657A1', 'US9823289B2', 'JP6557334B2', 'US11170104B1', 'KR101822404B1', 'US10354200B2', 'WO2017112686A1', 'US20170185898A1', 'US10528734B2', 'US20170308701A1', 'US10216954B2', 'US10839311B2', 'CN107645482B', 'US10846618B2', 'US10534925B2', 'US20180234302A1', 'US10511615B2', 'JP6767924B2', 'JP6767926B2', 'GB2567615A', 'CN107659717B', 'US20190104141A1', 'US10921792B2', 'US11381984B2', 'WO2019237332A1', 'CN110958208B', 'US11341363B1', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'US11386208B1', 'CN110198244B', 'US10521235B1', 'US10915428B2', 'US11379292B2', 'US10642719B1', 'US10747544B1', 'US11354222B2', 'US11093378B2', 'CN112883995B']","['US6532541B1', 'US6741974B1', 'US7103772B2', 'US8713680B2', 'US8320329B2', 'US8108323B2', 'US20090327168A1', 'US8069128B2', 'US8347386B2', 'DE102008043954A1', 'US20100153371A1', 'US8793758B2', 'JP5244686B2', 'US8694624B2', 'US8356001B2', 'US20120254333A1', 'US20120180126A1', 'US20120151479A1', 'US9326698B2', 'US8793593B2', 'US9832211B2']","['US9324034B2', 'US9609456B2', 'US9690635B2', 'US9298494B2', 'US9202047B2', 'US9495537B2', 'US9747440B2', 'US9330257B2', 'US9319897B2', 'US11126720B2', 'KR20150084970A', 'US9684870B2', 'US10089582B2', 'US9686023B2', 'US9742559B2', 'EP2949144B1', 'US9491187B2', 'US9591003B2', 'WO2015112760A1', 'US9684787B2', 'US9213941B2', 'US20150324688A1', 'US9826338B2', 'US10613046B2', 'US20160245686A1', 'US10648735B2', 'US10638295B2', 'US10599982B2', 'US10481195B2', 'US20160245279A1', 'US20160313216A1', 'US9875357B2', 'US20160232353A1', 'US20160350657A1', 'US9823289B2', 'JP6557334B2', 'US11170104B1', 'KR101822404B1', 'US10354200B2', 'WO2017112686A1', 'US20170185898A1', 'US10528734B2', 'US20170308701A1', 'US10216954B2', 'US10839311B2', 'CN107645482B', 'US10846618B2', 'US10534925B2', 'US20180234302A1', 'US10511615B2', 'JP6767924B2', 'JP6767926B2', 'GB2567615A', 'CN107659717B', 'US20190104141A1', 'US10921792B2', 'US11381984B2', 'WO2019237332A1', 'CN110958208B', 'US11341363B1', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'US11386208B1', 'CN110198244B', 'US10521235B1', 'US10915428B2', 'US11379292B2', 'US10642719B1', 'US10747544B1', 'US11354222B2', 'US11093378B2', 'CN112883995B', 'US6532541B1', 'US6741974B1', 'US7103772B2', 'US8713680B2', 'US8320329B2', 'US8108323B2', 'US20090327168A1', 'US8069128B2', 'US8347386B2', 'DE102008043954A1', 'US20100153371A1', 'US8793758B2', 'JP5244686B2', 'US8694624B2', 'US8356001B2', 'US20120254333A1', 'US20120180126A1', 'US20120151479A1', 'US9326698B2', 'US8793593B2', 'US9832211B2']","['CN107645482B', 'CN107659717B', 'CN110958208B', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'CN110198244B', 'CN112883995B']",[],"['CN107645482B', 'CN107659717B', 'CN110958208B', 'CN109634820A', 'CN109766691B', 'CN109772753B', 'CN110198244B', 'CN112883995B']"
+IN2012DN05158A,Patent IN2012DN05158A ,IN,2015-10-23,"Methods of selling endowment policies and funding an education are provided. In a general embodiment, the method includes selling a first endowment policy to an individual, allowing the individual to purchase additional endowment policies at the same price as the first endowment policy, and reminding the individual using an automatic computer generated reminder of the right to purchase additional endowment policies. The endowment policies can be used to fund an education.",B32B5/12,"Layered products characterised by the non- homogeneity or physical structure, i.e. comprising a fibrous, filamentary, particulate or foam layer; Layered products characterised by having a layer differing constitutionally or physically in different parts characterised by structural features of a fibrous or filamentary layer characterised by the relative arrangement of fibres or filaments of different layers, e.g. the fibres or filaments being parallel or perpendicular to each other",,,Koen Van Putten,"['BR112015022447A8', 'JP6676534B2', 'ES2861159T3', 'WO2018122120A1', 'US11040521B2', 'US11541636B2', 'KR101875393B1', 'ES1219654Y', 'US11530513B2', 'CN111469495A', 'CN112549711A', 'EP4219160A4']","['NL177840C', 'NL177759B', 'US4623574A', 'EP0205960B1', 'CA2075211A1', 'NL9100279A', 'DE4128024A1', 'BE1007230A3', 'JP2007520371A', 'IL224437A', 'US7687412B2', 'TR201900184T4', 'WO2007122010A2', 'CN101178295A', 'KR20090094851A', 'US8969221B2', 'US8017529B1', 'US7976932B1', 'WO2009121902A1', 'BRPI0911852A2', 'US9623626B2']","['BR112015022447A8', 'JP6676534B2', 'ES2861159T3', 'WO2018122120A1', 'US11040521B2', 'US11541636B2', 'KR101875393B1', 'ES1219654Y', 'US11530513B2', 'CN111469495A', 'CN112549711A', 'EP4219160A4', 'NL177840C', 'NL177759B', 'US4623574A', 'EP0205960B1', 'CA2075211A1', 'NL9100279A', 'DE4128024A1', 'BE1007230A3', 'JP2007520371A', 'IL224437A', 'US7687412B2', 'TR201900184T4', 'WO2007122010A2', 'CN101178295A', 'KR20090094851A', 'US8969221B2', 'US8017529B1', 'US7976932B1', 'WO2009121902A1', 'BRPI0911852A2', 'US9623626B2']","['BR112015022447A8', 'CN111469495A', 'CN112549711A']","['CN101178295A', 'BRPI0911852A2']","['BR112015022447A8', 'CN111469495A', 'CN112549711A', 'CN101178295A', 'BRPI0911852A2']"
+IN2014KN02410A,Patent IN2014KN02410A ,IN,2015-05-01,"The present invention relates to compounds useful as inhibitors of ATR protein kinase and combination therapies thereof. The invention also relates to pharmaceutically acceptable compositions comprising the compounds of this invention; methods of treating of various diseases, disorders, and conditions using the compounds of this invention; processes for preparing the compounds of this invention; intermediates for the preparation of the compounds of this invention; and methods of using the compounds in in vitro applications, such as the study of kinases in biological and pathological phenomena; the study of intracellular signal transduction pathways mediated by such kinases; and the comparative evaluation of new kinase inhibitors. The compounds of this invention have formula I:wherein the variables are as defined herein.",A61K33/243,Platinum; Compounds thereof,,,John Robert Pollard,"['CN102300862B', 'NZ603477A', 'EP2569287B1', 'EP2940017B1', 'MX2014003785A', 'NZ720511A', 'DK2904406T3', 'HUE037371T2', 'WO2014114928A1', 'AU2014360380B2', 'SG11201610197XA', 'PL3157566T3', 'TWI656121B', 'BR112017000865A2', 'WO2017059357A1', 'JP7560026B2', 'CN108697811B', 'CA3026074A1', 'JOP20190197A1', 'AR110995A1', 'WO2018153972A1', 'WO2018187479A1', 'WO2018206547A1', 'EP3661560A1', 'EP3461480A1', 'US11712440B2', 'JP2022502399A', 'CA3116234A1', 'US20210369724A1', 'EP4003358A4', 'WO2022103827A1', 'CN117024413B']","['US4309430A', 'JPS62270623A', 'JPS63208520A', 'US5329012A', 'JPH0272372A', 'JPH0272370A', 'JPH0374370A', 'JP2597917B2', 'US5572248A', 'CA2253910A1', 'JP4026876B2', 'JP2002241379A', 'AU2790999A', 'DE19826671A1', 'WO2000004014A1', 'US7023913B1', 'ES2267492T3', 'US6738073B2', 'AU6051800A', 'US7015954B1', 'US6660753B2', 'WO2001044206A1', 'US6849660B1', 'US6829391B2', 'EP1217000A1', 'US8085293B2', 'US6759657B2', 'WO2002080899A1', 'US6469002B1', 'DE60229059D1', 'SE0102438D0', 'SE0102439D0', 'USRE40794E1', 'GB0124939D0', 'MXPA04004714A', 'US6992087B2', 'US20030187026A1', 'SG159380A1', 'CA2476586C', 'GB0206860D0', 'TWI319387B', 'US7043079B2', 'GB0209715D0', 'WO2003093297A2', 'US7704995B2', 'TW200406385A', 'US20040082627A1', 'WO2004000318A2', 'WO2004033431A2', 'US20040075741A1', 'US7385626B2', 'US20040100560A1', 'SE0203754D0', 'SE0203752D0', 'DK1603570T5', 'US7684624B2', 'WO2004080982A1', 'WO2004084813A2', 'CA2519677A1', 'GB2400101A', 'GB2400514B', 'JP2006528980A', 'WO2004103991A1', 'US20050123902A1', 'PE20050206A1', 'US7986339B2', 'JP2005020227A', 'AR045595A1', 'WO2005034952A2', 'US20050116968A1', 'WO2005058876A1', 'WO2005079802A1', 'US20050276765A1', 'EP1773807A2', 'BRPI0513899A', 'US7626021B2', 'ES2341351T3', 'JP2008510792A', 'US7730406B2', 'DE602005015742D1', 'US8003806B2', 'JP2008520738A', 'JP4810669B2', 'GB0428235D0', 'MX2007007797A', 'GB0500492D0', 'US7622583B2', 'GB0501999D0', 'RU2007134259A', 'ATE524467T1', 'WO2006124874A2', 'EP1893607A4', 'JP2009503103A', 'WO2007015632A1', 'US7394926B2', 'US7806604B2', 'TW200736260A', 'ES2335698T3', 'JP5064237B2', 'WO2007070606A2', 'JP2009521494A', 'PE20070978A1', 'ITMI20060311A1', 'GB0603684D0', 'WO2007096764A2', 'TW200800203A', 'RU2008141761A', 'US7574131B2', 'EP2001870A2', 'US7629346B2', 'CN101472903A', 'AU2007263017A1', 'EP1900727A1', 'DE602007013441D1', 'GB0619342D0', 'EP2450350A1', 'ZA200902382B', 'WO2008060907A2', 'US20080132698A1', 'UY30796A1', 'AU2007338792B2', 'PE20081581A1', 'GB0625659D0', 'CA2676173A1', 'MX2009009304A', 'JP2008260691A', 'BRPI0810196A2', 'JP2010526823A', 'PE20090717A1', 'MX2009012705A', 'UY31137A1', 'EP2012409A2', 'US20100190980A1', 'US20090005381A1', 'AU2008271170A1', 'GB0713259D0', 'SI2178865T1', 'RU2474580C2', 'JP4792126B2', 'WO2009024825A1', 'WO2009037247A1', 'EP2215085B1', 'WO2009099982A1', 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+IN2014KN00943A,Patent IN2014KN00943A ,IN,2015-08-21,"The present invention relates to compounds useful as inhibitors of ATR protein kinase. The invention also relates to pharmaceutically acceptable compositions comprising the compounds of this invention; methods of treating of various diseases, disorders, and conditions using the compounds of this invention; processes for preparing the compounds of this invention; intermediates for the preparation of the compounds of this invention; solid forms of the compounds of this invention; and methods of using the compounds in in vitro applications, such as the study of kinases in biological and pathological phenomena; the study of intracellular signal transduction pathways mediated by such kinases; and the comparative evaluation of new kinase inhibitors. The compounds of this invention have formula I-1: wherein the variables are as defined herein. Additionally, the compounds of this invention have formula II: or a pharmaceutically acceptable salt thereof, wherein the variables are as defined herein.",C07D413/14,"Heterocyclic compounds containing two or more hetero rings, at least one ring having nitrogen and oxygen atoms as the only ring hetero atoms containing three or more hetero rings",,,Jean-Damien Charrier,"['CN102300862B', 'EP2569286B1', 'US8962631B2', 'US8969356B2', 'JP5856151B2', 'NZ603477A', 'EP2569287B1', 'JP2013529643A', 'CN103562204A', 'US9309250B2', 'EP2723747A1', 'JP2014520161A', 'US8853217B2', 'EP2940017B1', 'EP2751088B1', 'JP2014528419A', 'MX2014003785A', 'WO2013071093A1', 'US8841449B2', 'WO2013071088A1', 'EP2776429A1', 'EP2776422A1', 'NZ720511A', 'DK2904406T3', 'WO2014062604A1', 'HUE037371T2', 'JP2016512815A', 'AU2014360380B2', 'SG11201610197XA', 'PL3157566T3', 'TWI656121B', 'CN105471583B', 'WO2017059357A1', 'CN108697811B', 'FR3058062A1', 'JOP20190197A1', 'AR110995A1', 'WO2018153972A1', 'WO2018206547A1', 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'AU2007263017A1', 'CN101472903A', 'DE602007013441D1', 'GB0619342D0', 'EP2450350A1', 'WO2008060907A2', 'UY30796A1', 'AU2007338792B2', 'PE20081581A1', 'GB0625659D0', 'CA2676173A1', 'MX2009009304A', 'BRPI0810196A2', 'JP2010526823A', 'PE20090717A1', 'UY31137A1', 'US20100190980A1', 'US20090005381A1', 'GB0713259D0', 'RU2474580C2', 'SI2178865T1', 'JP4792126B2', 'WO2009024825A1', 'WO2009037247A1', 'EP2215085B1', 'CN101952294B', 'WO2009106442A1', 'MX2010009023A', 'WO2009106445A1', 'TW200940537A', 'WO2009152087A1', 'GB0814364D0', 'CN102317277A', 'MX2011004953A', 'WO2010068483A2', 'MX2011005597A', 'CN102300862B', 'JP2012513409A', 'KR20110132564A', 'WO2010111653A2', 'ES2483594T3', 'US8518945B2', 'MX2012011549A', 'ES2602475T3', 'EP2569287B1', 'US8969356B2', 'EP2569286B1', 'JP5856151B2', 'US8962631B2', 'NZ603477A', 'EP2571881A1', 'BR112012029437A2', 'JP2013529643A', 'CN102311396B', 'EP2407478A1', 'CN103562204A', 'MX2013013331A', 'US9309250B2', 'JP2014520161A', 'EP2723747A1', 'MX2014003785A', 'EP2751088B1', 'EP2940017B1', 'JP2014528419A', 'US8853217B2', 'WO2013071093A1', 'EP2776429A1', 'EP2776422A1', 'US8841449B2', 'WO2013071088A1']","['CN102300862B', 'CN103562204A', 'CN105471583B', 'CN108697811B', 'CN109507429A', 'CN112694497A', 'CN116444496B']","['BRPI0513899A', 'RU2007134259A', 'RU2008141761A', 'CN101472903A', 'BRPI0810196A2', 'RU2474580C2', 'CN101952294B', 'CN102317277A', 'CN102300862B', 'BR112012029437A2', 'CN102311396B', 'CN103562204A']","['CN102300862B', 'CN103562204A', 'CN105471583B', 'CN108697811B', 'CN109507429A', 'CN112694497A', 'CN116444496B', 'BRPI0513899A', 'RU2007134259A', 'RU2008141761A', 'CN101472903A', 'BRPI0810196A2', 'RU2474580C2', 'CN101952294B', 'CN102317277A', 'CN102300862B', 'BR112012029437A2', 'CN102311396B', 'CN103562204A']"
+IN2012DN02977A,Patent IN2012DN02977A ,IN,2015-07-31,"A system and method for efficient data prefetching. A data stream stored in lower-level memory comprises a contiguous block of data used in a computer program. A prefetch unit in a processor detects a data stream by identifying a sequence of storage accesses referencing a contiguous blocks of data in a monotonically increasing or decreasing manner. After a predetermined training period for a given data stream, the prefetch unit prefetches a portion of the given data stream from memory without write permission, in response to an access that does not request write permission. Also, after the training period, the prefetch unit prefetches a portion of the given data stream from lower-level memory with write permission, in response to determining there has been a prior access to the given data stream that requests write permission subsequent to a number of cache misses reaching a predetermined threshold.",G06F12/0862,"Addressing of a memory level in which the access to the desired data or data block requires associative addressing means, e.g. caches with prefetch",,,Benjamin T Sander,"['US8307180B2', 'US8874824B2', 'US8838906B2', 'US8533399B2', 'US9507647B2', 'US8509254B2', 'US8583894B2', 'US8880847B2', 'US9417998B2', 'US9098418B2', 'US9311226B2', 'US9311251B2', 'GB2513043B', 'US9384136B2', 'WO2014202825A1', 'JP6119523B2', 'WO2015089488A1', 'JP5936152B2', 'US9529727B2', 'WO2016097809A1', 'EP3049915B1', 'US9971694B1', 'US10324832B2', 'US11169925B2', 'US10042749B2', 'JP6734760B2', 'US10474576B2', 'US10152419B2', 'US9904624B1', 'US10180905B1', 'US10169240B2', 'US10649904B2', 'US10331567B1', 'KR102429429B1', 'CN109669880A', 'US11237968B2', 'CN109408412B', 'US10963249B2', 'CN110427332B', 'GB2593487B', 'CN114065947B']","['US5778436A', 'US5848254A', 'US6401193B1', 'US6282614B1', 'US6457101B1', 'US6865652B1', 'US6571318B1', 'JP4030314B2', 'US7107408B2', 'US7103725B2', 'US7003633B2', 'US7099999B2', 'US7487296B1', 'JP4532931B2', 'US7836259B1', 'US7434004B1', 'US7350029B2', 'US7380066B2', 'US7594078B2', 'US7917731B2', 'US20090106498A1', 'US7958317B2']","['US8307180B2', 'US8874824B2', 'US8838906B2', 'US8533399B2', 'US9507647B2', 'US8509254B2', 'US8583894B2', 'US8880847B2', 'US9417998B2', 'US9098418B2', 'US9311226B2', 'US9311251B2', 'GB2513043B', 'US9384136B2', 'WO2014202825A1', 'JP6119523B2', 'WO2015089488A1', 'JP5936152B2', 'US9529727B2', 'WO2016097809A1', 'EP3049915B1', 'US9971694B1', 'US10324832B2', 'US11169925B2', 'US10042749B2', 'JP6734760B2', 'US10474576B2', 'US10152419B2', 'US9904624B1', 'US10180905B1', 'US10169240B2', 'US10649904B2', 'US10331567B1', 'KR102429429B1', 'CN109669880A', 'US11237968B2', 'CN109408412B', 'US10963249B2', 'CN110427332B', 'GB2593487B', 'CN114065947B', 'US5778436A', 'US5848254A', 'US6401193B1', 'US6282614B1', 'US6457101B1', 'US6865652B1', 'US6571318B1', 'JP4030314B2', 'US7107408B2', 'US7103725B2', 'US7003633B2', 'US7099999B2', 'US7487296B1', 'JP4532931B2', 'US7836259B1', 'US7434004B1', 'US7350029B2', 'US7380066B2', 'US7594078B2', 'US7917731B2', 'US20090106498A1', 'US7958317B2']","['CN109669880A', 'CN109408412B', 'CN110427332B', 'CN114065947B']",[],"['CN109669880A', 'CN109408412B', 'CN110427332B', 'CN114065947B']"
+IN2014CN05002A,Patent IN2014CN05002A ,IN,2015-09-18,A combined computer/human approach is used to detect actionable insights in large data sets. Automated computer analysis used to identify patterns (e.g. possibly meaningful patterns or subsets within the data). These are presented to humans for feedback where the humans may have little to no training in the statistical methods used to detect actionable insights. Feedback from the humans is used to improve the pattern detection and facilitate the detection of actionable insights.,G06N20/00,Machine learning,,,Arijit Sengupta,"['US20160314485A1', 'US10510449B1', 'US9483741B2', 'US9436919B2', 'US9390378B2', 'GB2525572A', 'JP6330456B2', 'US9652745B2', 'US10884891B2', 'US11461368B2', 'CN107003791A', 'WO2017027003A1', 'WO2017131696A1', 'US10623443B2', 'US10419269B2', 'CN109635108B', 'US11257090B2', 'US11829918B2', 'CN115964640B']","['US6681383B1', 'US6799154B1', 'FI114749B', 'EP1350199A4', 'US6477485B1', 'KR20030065552A', 'US6708137B2', 'US7631058B2', 'US7181465B2', 'US6799152B1', 'US20040059265A1', 'US20040221171A1', 'US20090006156A1', 'US8666928B2', 'US20070043607A1', 'US7720553B2', 'WO2008118977A1', 'US8200527B1', 'US20090089078A1', 'US8327395B2', 'DE602007003849D1', 'US8494257B2', 'US20090292677A1', 'EP2133772B1', 'WO2010071998A1', 'US8214238B1', 'US8489589B2', 'US20110295722A1', 'US8606739B2', 'US20120096089A1', 'US20130066961A1', 'US8675966B2']","['US20160314485A1', 'US10510449B1', 'US9483741B2', 'US9436919B2', 'US9390378B2', 'GB2525572A', 'JP6330456B2', 'US9652745B2', 'US10884891B2', 'US11461368B2', 'CN107003791A', 'WO2017027003A1', 'WO2017131696A1', 'US10623443B2', 'US10419269B2', 'CN109635108B', 'US11257090B2', 'US11829918B2', 'CN115964640B', 'US6681383B1', 'US6799154B1', 'FI114749B', 'EP1350199A4', 'US6477485B1', 'KR20030065552A', 'US6708137B2', 'US7631058B2', 'US7181465B2', 'US6799152B1', 'US20040059265A1', 'US20040221171A1', 'US20090006156A1', 'US8666928B2', 'US20070043607A1', 'US7720553B2', 'WO2008118977A1', 'US8200527B1', 'US20090089078A1', 'US8327395B2', 'DE602007003849D1', 'US8494257B2', 'US20090292677A1', 'EP2133772B1', 'WO2010071998A1', 'US8214238B1', 'US8489589B2', 'US20110295722A1', 'US8606739B2', 'US20120096089A1', 'US20130066961A1', 'US8675966B2']","['CN107003791A', 'CN109635108B', 'CN115964640B']",[],"['CN107003791A', 'CN109635108B', 'CN115964640B']"
+IN2012DN04085A,Patent IN2012DN04085A ,IN,2015-08-07,"The present invention relates to a method of enhancing muscle protein synthesis following physical exertion comprising administering to a human a composition comprising protein or essential amino acids and carbohydrates 30 minutes or less prior to, during, or within 30 minutes of running repeated sprints. Further, the invention relates to a program for enhancing muscle adaptation resulting from repeated sprints training.",A61K38/02,Peptides of undefined number of amino acids; Derivatives thereof,,,Daniel Ryan Moore,"['US10016472B2', 'US20150150898A1', 'EP2922416A4', 'EP2996487B1', 'US9820504B2', 'US20140294788A1', 'US10271570B2', 'WO2015040533A1', 'PL238958B1', 'JOP20190146A1', 'CN110868870A', 'IL296055A', 'AR115585A1']","['KR100481379B1', 'US6013290A', 'US6051236A', 'DE69930464D1', 'WO2002047612A2', 'US7740893B2', 'US20030064134A1', 'US7288570B2', 'JP2005070853A', 'US7205018B2', 'WO2007006135A1', 'EP1973426A2', 'US20070243290A1', 'US20070270355A1', 'RU2306720C1', 'US20090169684A1', 'EP2098126A1']","['US10016472B2', 'US20150150898A1', 'EP2922416A4', 'EP2996487B1', 'US9820504B2', 'US20140294788A1', 'US10271570B2', 'WO2015040533A1', 'PL238958B1', 'JOP20190146A1', 'CN110868870A', 'IL296055A', 'AR115585A1', 'KR100481379B1', 'US6013290A', 'US6051236A', 'DE69930464D1', 'WO2002047612A2', 'US7740893B2', 'US20030064134A1', 'US7288570B2', 'JP2005070853A', 'US7205018B2', 'WO2007006135A1', 'EP1973426A2', 'US20070243290A1', 'US20070270355A1', 'RU2306720C1', 'US20090169684A1', 'EP2098126A1']",['CN110868870A'],['RU2306720C1'],"['CN110868870A', 'RU2306720C1']"
+IN2014CN03111A,Patent IN2014CN03111A ,IN,2015-07-03,The invention relates to enantiomers of 2 hydroxy derivatives of fatty acids. The invention refers to the synthesis and purification of 2 hydroxy derivatives of fatty acids and to the method for separating the enantiomers (or optical isomers) [ ](S) and [+](R) of 2 hydroxy derivative compounds of fatty acids to the actual enantiomers to pharmaceutical compositions that include same and to the use thereof as drugs as well as to in vitro diagnosis/prognosis methods and to methods for assessing the potential use of the molecules of the invention in various diseases as well as to the use thereof for regulating certain enzymes and to the study of the activity and effects thereof.,A61K31/19,"Carboxylic acids, e.g. valproic acid",,,Ruiz Pablo Vicente Escribá,"['ES2345241B1', 'KR101970151B1', 'US11260042B2', 'CA3082144A1', 'ES2911474B2', 'ES2846824B2', 'CA3166307C', 'BR112022014074A2', 'ES2982396A1']","['RU2235541C2', 'AUPR547601A0', 'ES2186576B1', 'ES2342997B1', 'ES2345241B1']","['ES2345241B1', 'KR101970151B1', 'US11260042B2', 'CA3082144A1', 'ES2911474B2', 'ES2846824B2', 'CA3166307C', 'BR112022014074A2', 'ES2982396A1', 'RU2235541C2', 'AUPR547601A0', 'ES2186576B1', 'ES2342997B1', 'ES2345241B1']",['BR112022014074A2'],['RU2235541C2'],"['BR112022014074A2', 'RU2235541C2']"
+IN2014MN01101A,Patent IN2014MN01101A ,IN,2015-07-03,,G01N33/5008,"Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving human or animal cells for testing or evaluating the effect of chemical or biological compounds, e.g. drugs, cosmetics",,,Pavel Osten,"['CA2565870A1', 'SG11201600604QA', 'WO2016145366A1', 'CN104850864A', 'EP3510500A4', 'WO2018094290A1', 'US10303961B1', 'CN106990077A', 'EP3451190B1', 'CN108766587B', 'JP6559850B1', 'US11486950B2', 'JP6558786B1', 'EP3644228B1', 'US20220113288A1', 'KR102307479B1', 'CN109709129A', 'US11808760B1', 'CN110178757B', 'WO2021030270A1', 'IL292185A', 'CN110850070B', 'CN111061729B', 'US20210190762A1', 'CN111062346A', 'US11461216B1', 'US11605038B1', 'CN111657861B', 'WO2023044336A1', 'WO2024168475A1']","['US7998704B2', 'US8952213B2', 'US7372985B2', 'CN101484806A']","['CA2565870A1', 'SG11201600604QA', 'WO2016145366A1', 'CN104850864A', 'EP3510500A4', 'WO2018094290A1', 'US10303961B1', 'CN106990077A', 'EP3451190B1', 'CN108766587B', 'JP6559850B1', 'US11486950B2', 'JP6558786B1', 'EP3644228B1', 'US20220113288A1', 'KR102307479B1', 'CN109709129A', 'US11808760B1', 'CN110178757B', 'WO2021030270A1', 'IL292185A', 'CN110850070B', 'CN111061729B', 'US20210190762A1', 'CN111062346A', 'US11461216B1', 'US11605038B1', 'CN111657861B', 'WO2023044336A1', 'WO2024168475A1', 'US7998704B2', 'US8952213B2', 'US7372985B2', 'CN101484806A']","['CN104850864A', 'CN106990077A', 'CN108766587B', 'CN109709129A', 'CN110178757B', 'CN110850070B', 'CN111061729B', 'CN111062346A', 'CN111657861B']",['CN101484806A'],"['CN104850864A', 'CN106990077A', 'CN108766587B', 'CN109709129A', 'CN110178757B', 'CN110850070B', 'CN111061729B', 'CN111062346A', 'CN111657861B', 'CN101484806A']"
+IN2012DN02859A,Patent IN2012DN02859A ,IN,2015-07-24,"Embodiments of a millimeter-wave communication station and method for multiple-access beamforming in a millimeter-wave network are generally described herein. In some embodiments, an initiating station performs multiple-access beamforming with one or more responding stations by announcing a number of sector-sweep (SS) slots of a beamforming training (BFT) period and a number of SS frames of each SS slot. One or more SS frames are received from one or more of the responding stations within one of the SS slots of the BFT period. The initiating station transmits one or more SS feedback frames to the responding stations within the one SS slot to indicate an antenna configuration to the responding stations for communication with the initiating station. The responding stations transmit a limited number of SS frames per SS slot based on the number of SS frames announced by the initiating station and transmit any additional SS frames in a next SS slot of the beamforming training period. Each SS frame contains an indication to the initiating station of an antenna configuration for communication with the responding station.",H04W72/0446,"Resources in time domain, e.g. slots or frames",,,Carlos Cordeiro,"['US8625565B2', 'US8548385B2', 'US8315154B2', 'US20130044695A1', 'KR101872977B1', 'US9160430B2', 'US9444140B2', 'US9629150B2', 'EP2894927B1', 'KR20150079803A', 'TW201511598A', 'KR20150115931A', 'CN104184504B', 'US10097321B2', 'US10659135B2', 'US9363683B2', 'KR102300532B1', 'US9712221B2', 'US9859966B2', 'US10056958B2', 'US9504038B2', 'US10411780B2', 'CN105897322B', 'EP3059877B1', 'US10784904B2', 'WO2016145615A1', 'US9722726B2', 'US10015800B2', 'US9882621B2', 'US20170026962A1', 'WO2017020172A1', 'US10256878B2', 'KR20170044994A', 'US10743194B2', 'US10312980B2', 'US10411776B2', 'JP7166172B2', 'US10178620B2', 'CN107465437B', 'WO2017206642A1', 'US10490895B2', 'CN109923797B', 'JP7107309B2', 'US11115983B2', 'CN108076533B', 'US10292163B2', 'RU2717948C1', 'CN108260180B', 'US11228348B2', 'KR102488761B1', 'WO2018190916A1', 'JP7043335B2', 'US10826585B2', 'CN109842938B', 'US10382983B2', 'EP3857722A1', 'CN111464221B', 'US20230379725A1']","['GB2293725B', 'US6782277B1', 'US7123924B2', 'US6847809B2', 'US7263385B2', 'US7386305B2', 'WO2004086730A2', 'US7369633B2', 'JP3880554B2', 'US20050147115A1', 'GB0406217D0', 'RU2278471C2', 'US7536205B2', 'US7206610B2', 'JP2008530946A', 'US7630343B2', 'TW200705901A', 'TW200735682A', 'US7804800B2', 'US8229506B2', 'JP5178740B2', 'US9048945B2', 'US8280445B2', 'US8027702B2', 'US9100068B2', 'CN102132504B', 'CN102160348B', 'EP2359625B1', 'US9094071B2', 'US8942210B2', 'US8335167B1', 'US8422961B2', 'WO2010099040A1', 'US8971256B2', 'US8767683B2', 'US8331265B2', 'US8743838B2', 'US9219576B2', 'US8625565B2', 'US8767640B2']","['US8625565B2', 'US8548385B2', 'US8315154B2', 'US20130044695A1', 'KR101872977B1', 'US9160430B2', 'US9444140B2', 'US9629150B2', 'EP2894927B1', 'KR20150079803A', 'TW201511598A', 'KR20150115931A', 'CN104184504B', 'US10097321B2', 'US10659135B2', 'US9363683B2', 'KR102300532B1', 'US9712221B2', 'US9859966B2', 'US10056958B2', 'US9504038B2', 'US10411780B2', 'CN105897322B', 'EP3059877B1', 'US10784904B2', 'WO2016145615A1', 'US9722726B2', 'US10015800B2', 'US9882621B2', 'US20170026962A1', 'WO2017020172A1', 'US10256878B2', 'KR20170044994A', 'US10743194B2', 'US10312980B2', 'US10411776B2', 'JP7166172B2', 'US10178620B2', 'CN107465437B', 'WO2017206642A1', 'US10490895B2', 'CN109923797B', 'JP7107309B2', 'US11115983B2', 'CN108076533B', 'US10292163B2', 'RU2717948C1', 'CN108260180B', 'US11228348B2', 'KR102488761B1', 'WO2018190916A1', 'JP7043335B2', 'US10826585B2', 'CN109842938B', 'US10382983B2', 'EP3857722A1', 'CN111464221B', 'US20230379725A1', 'GB2293725B', 'US6782277B1', 'US7123924B2', 'US6847809B2', 'US7263385B2', 'US7386305B2', 'WO2004086730A2', 'US7369633B2', 'JP3880554B2', 'US20050147115A1', 'GB0406217D0', 'RU2278471C2', 'US7536205B2', 'US7206610B2', 'JP2008530946A', 'US7630343B2', 'TW200705901A', 'TW200735682A', 'US7804800B2', 'US8229506B2', 'JP5178740B2', 'US9048945B2', 'US8280445B2', 'US8027702B2', 'US9100068B2', 'CN102132504B', 'CN102160348B', 'EP2359625B1', 'US9094071B2', 'US8942210B2', 'US8335167B1', 'US8422961B2', 'WO2010099040A1', 'US8971256B2', 'US8767683B2', 'US8331265B2', 'US8743838B2', 'US9219576B2', 'US8625565B2', 'US8767640B2']","['CN104184504B', 'CN105897322B', 'CN107465437B', 'CN109923797B', 'CN108076533B', 'RU2717948C1', 'CN108260180B', 'CN109842938B', 'CN111464221B']","['RU2278471C2', 'CN102132504B', 'CN102160348B']","['CN104184504B', 'CN105897322B', 'CN107465437B', 'CN109923797B', 'CN108076533B', 'RU2717948C1', 'CN108260180B', 'CN109842938B', 'CN111464221B', 'RU2278471C2', 'CN102132504B', 'CN102160348B']"
+IN2015DN00243A,Patent IN2015DN00243A ,IN,2015-06-12,"The invention relates to an advanced device for welding training based on augmented reality simulation which can be updated remotely and which allows simulation of all types of industrial welding i.e. coated electrode (SMAW), MIG/MAG (GMAW,FCAW) and TIG (GTAW), all types of materials and all types of existing joints in all welding positions (1F to 4F, 1G to 6G,6GR) providing a very exact simulation of the behaviour of a real welding machine through the use of augmented reality technology which allows interaction between different elements in multiple layers all of which is implemented on a system for checking monitoring and evaluating students which allows the teacher to test the student in real time without the teacher being present in the training room including from a remote station.",G09B9/00,Simulators for teaching or training purposes,,,Barrera Juan José Chica,"['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1']","['US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['WO2009146359A1', 'US9196169B2', 'US9221117B2', 'US9773429B2', 'US9230449B2', 'US9101994B2', 'US9573215B2', 'US20160093233A1', 'US9583014B2', 'US9368045B2', 'US9672757B2', 'US9713852B2', 'US9666100B2', 'US9728103B2', 'US9583023B2', 'US11090753B2', 'US20150072323A1', 'US10083627B2', 'US10056010B2', 'US9724788B2', 'US10170019B2', 'US9757819B2', 'US9751149B2', 'US10105782B2', 'US9589481B2', 'US9836987B2', 'US20150248845A1', 'CN106233358A', 'US9937578B2', 'US10665128B2', 'US10307853B2', 'US9862049B2', 'US8992226B1', 'US11014183B2', 'US9724787B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10204406B2', 'US10210773B2', 'US10417934B2', 'US10773329B2', 'US20160207134A1', 'US10427239B2', 'FR3036219B1', 'CN104916180B', 'CN105023215A', 'US10521523B2', 'US10387587B2', 'US10657839B2', 'US10593230B2', 'US10373517B2', 'US10438505B2', 'JP6693073B2', 'CN108701427B', 'CA3010814A1', 'MX2018008461A', 'EP3239795A1', 'US20170364846A1', 'US10235809B2', 'CN106201437A', 'CN106128229A', 'EP3319066A1', 'US20180130377A1', 'US10913125B2', 'CN106817568A', 'US20210327304A1', 'US20210295048A1', 'US20210327303A1', 'CN106898179A', 'CN106843150A', 'US11054894B2', 'US10828716B2', 'US20190087834A1', 'EP3499438A1', 'EP3537410A1', 'EP3537412A1', 'EP3537409A1', 'US10664673B2', 'US10990777B1', 'US11475792B2', 'US11557223B2', 'US11538358B2', 'US11120703B2', 'US20230230491A1', 'CN109035395B', 'US11521512B2', 'US11450233B2', 'US11514816B2', 'US11311958B1', 'US11288978B2', 'US11776423B2', 'CN110315565A', 'US11721231B2', 'US11322037B2', 'WO2021102809A1', 'TWI756944B', 'ES2921524B2', 'US11685005B2', 'US20230054236A1', 'CN114637397B', 'DE102022206024A1', 'ES2958167A1', 'EP4450203A1', 'US6330598B1', 'US7215322B2', 'ES1057916Y', 'CA2482240A1', 'US20070188606A1', 'US9323055B2', 'ES2274736B1', 'JPWO2008114478A1', 'WO2009146359A1', 'AT507021B1', 'US8657605B2', 'US9280913B2', 'US8915740B2', 'KR20100118943A', 'US9230449B2', 'US20110006047A1', 'US9011154B2', 'US8569655B2', 'ES2361208B1', 'CN101833892A', 'KR101390383B1', 'US9101994B2', 'US8749396B2', 'US9573215B2', 'US9511433B2', 'US10406621B2', 'CN104704535A', 'US9368045B2', 'US9713852B2', 'US20140336795A1', 'US9589481B2', 'US8992226B1', 'US10032388B2', 'US10438505B2']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B']","['CN101833892A', 'CN104704535A']","['CN106233358A', 'CN104916180B', 'CN105023215A', 'CN108701427B', 'CN106201437A', 'CN106128229A', 'CN106817568A', 'CN106898179A', 'CN106843150A', 'CN109035395B', 'CN110315565A', 'CN114637397B', 'CN101833892A', 'CN104704535A']"
+IN2012DE00674A,Patent IN2012DE00674A ,IN,2015-08-21,The present invention encompasses a novel one-step process for generation of nanocrystalline solid dispersions. Use of crystallization-inducing excipients for altering the crystallization propensity of pharmaceutical actives during pharmaceutical process ( e.g. spray drying) is the inventive step of the present invention. The process parameters of the pharmaceutical process have to be optimized in such a way that crystallization of the components of the dispersion is induced. The present invention is particularly of use for improving the dissolution of pharmaceutical actives exhibiting dissolution-limited bioavailability. Dissolution enhancement is because of the decreased crystallite size of the pharmaceutical active.,A61K31/415,"1,2-Diazoles",,,Kumar Bansal Arvind,"['JP2017533970A', 'HUP1500618A2', 'CN106176638B', 'RU2766086C2', 'EP3528792A1', 'WO2019022784A1', 'KR20210065977A', 'US20220096503A1', 'CN109771379A', 'TR201910337A2', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']","['US4721709A', 'KR0182801B1', 'EP0862420A4', 'AU6014098A', 'US20030203036A1', 'US6706283B1', 'US6395300B1', 'US8771740B2', 'US6780324B2', 'CA2580529A1', 'CA2598204C', 'EP1690528A1', 'WO2008048205A2', 'NZ566313A', 'US7914776B2', 'WO2009038112A1', 'DK2200588T3', 'JP2011513301A', 'EP2253306A1', 'CA2792273A1']","['JP2017533970A', 'HUP1500618A2', 'CN106176638B', 'RU2766086C2', 'EP3528792A1', 'WO2019022784A1', 'KR20210065977A', 'US20220096503A1', 'CN109771379A', 'TR201910337A2', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B', 'US4721709A', 'KR0182801B1', 'EP0862420A4', 'AU6014098A', 'US20030203036A1', 'US6706283B1', 'US6395300B1', 'US8771740B2', 'US6780324B2', 'CA2580529A1', 'CA2598204C', 'EP1690528A1', 'WO2008048205A2', 'NZ566313A', 'US7914776B2', 'WO2009038112A1', 'DK2200588T3', 'JP2011513301A', 'EP2253306A1', 'CA2792273A1']","['CN106176638B', 'RU2766086C2', 'CN109771379A', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']",[],"['CN106176638B', 'RU2766086C2', 'CN109771379A', 'CN115192529B', 'CN115429761A', 'CN116370409A', 'CN116919898B', 'CN117982495B']"
+IN2015DN01124A,Patent IN2015DN01124A ,IN,2015-06-26,A method of correcting measurements of a chemical sensor used in an industrial facility. The method involves correcting for errors known to occur in the steady state and the dynamic state for specifically recognized situations. This method allows for correcting errors that occur due to deadtime false zero measurements and non linear disturbances. The method combines automated measurement techniques and human know how to progressively learn and refine the accuracy of the corrections.,G05B23/02,Electric testing or monitoring,,,Jin Wang,"['UY35144A', 'JP6770677B2', 'US10011542B2', 'CN105223129A', 'TWI690009B', 'CN107643335B', 'US10823439B2', 'CN110021375A', 'JP6540787B1', 'GR1009932B', 'JP6939872B2', 'CN113310888B']","['US3725653A', 'GB1198734A', 'US3819328A', 'US3740722A', 'US3779905A', 'US4238349A', 'JPS55116101A', 'US4335072A', 'US4425267A', 'US5066199A', 'US5195879A', 'US5094958A', 'US5302253A', 'US5256276A', 'US5324665A', 'US5425267A', 'US5503006A', 'US5965785A', 'US5832411A', 'US6415276B1', 'JP3908438B2', 'CN1324420C', 'JP2002292356A', 'US6593278B2', 'EP1298185B1', 'GB0127913D0', 'JP3962919B2', 'US8145180B2', 'GB0515715D0', 'US7736903B2', 'US8712335B2', 'US20080001125A1', 'JP4851983B2', 'EP2179338A1', 'JP2009282750A', 'US9150793B2', 'TW201032897A', 'JP2010210588A', 'KR100933308B1', 'KR101346439B1', 'JP5331669B2', 'JP5007964B2', 'KR100998953B1', 'US20120053861A1', 'US9134238B2', 'WO2012139204A1', 'US9409110B2']","['UY35144A', 'JP6770677B2', 'US10011542B2', 'CN105223129A', 'TWI690009B', 'CN107643335B', 'US10823439B2', 'CN110021375A', 'JP6540787B1', 'GR1009932B', 'JP6939872B2', 'CN113310888B', 'US3725653A', 'GB1198734A', 'US3819328A', 'US3740722A', 'US3779905A', 'US4238349A', 'JPS55116101A', 'US4335072A', 'US4425267A', 'US5066199A', 'US5195879A', 'US5094958A', 'US5302253A', 'US5256276A', 'US5324665A', 'US5425267A', 'US5503006A', 'US5965785A', 'US5832411A', 'US6415276B1', 'JP3908438B2', 'CN1324420C', 'JP2002292356A', 'US6593278B2', 'EP1298185B1', 'GB0127913D0', 'JP3962919B2', 'US8145180B2', 'GB0515715D0', 'US7736903B2', 'US8712335B2', 'US20080001125A1', 'JP4851983B2', 'EP2179338A1', 'JP2009282750A', 'US9150793B2', 'TW201032897A', 'JP2010210588A', 'KR100933308B1', 'KR101346439B1', 'JP5331669B2', 'JP5007964B2', 'KR100998953B1', 'US20120053861A1', 'US9134238B2', 'WO2012139204A1', 'US9409110B2']","['CN105223129A', 'CN107643335B', 'CN110021375A', 'CN113310888B']",['CN1324420C'],"['CN105223129A', 'CN107643335B', 'CN110021375A', 'CN113310888B', 'CN1324420C']"
+IN2014CN03487A,Patent IN2014CN03487A ,IN,2015-10-09,This disclosure relates to techniques for providing hands free augmented reality on a wireless communication device (WCD). According to the techniques an application processor within the WCD executes an augmented reality (AR) application to receive a plurality of image frames and convert the plurality of image frames into a single picture comprising the plurality of image frames stitched together to represent a scene. The WCD executing the AR application then requests AR content for the scene represented in the single picture from an AR database server receives AR content for the scene from the AR database server and processes the AR content to overlay the single picture for display to a user on the WCD. In this way the user may comfortably look at the single picture with the overlaid AR content on a display of the WCD to learn more about the scene represented in the single picture.,G06T7/00,Image analysis,,,Babak Forutanpour,"['WO2011112940A1', 'CN104067317A', 'JP5751430B2', 'US9547917B2', 'WO2014169066A1', 'US9685896B2', 'US9408243B2', 'US9454848B2', 'BR112016002720B1', 'KR102206060B1', 'US10086271B2', 'KR101598921B1', 'WO2015160828A1', 'US9864909B2', 'US9734403B2', 'WO2015191346A1', 'US10504294B2', 'US10915754B2', 'WO2016011149A1', 'WO2016025585A1', 'US10291597B2', 'KR102276847B1', 'KR102278882B1', 'US9659410B2', 'CN104376118B', 'US10542126B2', 'US20160196693A1', 'WO2016160794A1', 'USD776181S1', 'US9948786B2', 'WO2016187483A1', 'KR101613287B1', 'US9704298B2', 'KR102517104B1', 'JP2018005091A', 'CN106250187A', 'US10592867B2', 'US20180150931A1', 'US9961302B1', 'US10516707B2', 'US10878474B1', 'US10440073B2', 'EP3388929A1', 'US10375125B2', 'US10375474B2', 'US10477148B2', 'US10516709B2', 'US10706391B2', 'US10091348B1', 'US10574886B2', 'WO2019226001A1', 'WO2019228842A1', 'CN108877311A', 'CN109063039A', 'CN109191369B', 'US11394848B2', 'CN109814709A', 'US10970578B2', 'US11011055B2', 'US11025837B2', 'US10944921B2', 'US10887531B2', 'KR102637416B1', 'US11601605B2', 'KR20220039110A', 'KR102442359B1', 'EP4113987B1', 'CN113938653A']","['US6552744B2', 'US6433835B1', 'JP3548459B2', 'US6792615B1', 'US6452597B1', 'JP3824298B2', 'US7080325B2', 'US7224847B2', 'US20040228401A1', 'US7495694B2', 'US8005831B2', 'CN101189049B', 'US7424218B2', 'US9101279B2', 'US20080147730A1', 'US8947421B2', 'US20090109341A1', 'US8711176B2', 'US8239758B2', 'US20100145676A1', 'US20100208033A1', 'KR101561913B1', 'US20110209201A1', 'US9901828B2', 'US9635251B2', 'US20120036444A1', 'WO2012039467A1', 'US9462280B2', 'US9057874B2', 'US20120221687A1', 'JP5765019B2', 'EP2888634A4']","['WO2011112940A1', 'CN104067317A', 'JP5751430B2', 'US9547917B2', 'WO2014169066A1', 'US9685896B2', 'US9408243B2', 'US9454848B2', 'BR112016002720B1', 'KR102206060B1', 'US10086271B2', 'KR101598921B1', 'WO2015160828A1', 'US9864909B2', 'US9734403B2', 'WO2015191346A1', 'US10504294B2', 'US10915754B2', 'WO2016011149A1', 'WO2016025585A1', 'US10291597B2', 'KR102276847B1', 'KR102278882B1', 'US9659410B2', 'CN104376118B', 'US10542126B2', 'US20160196693A1', 'WO2016160794A1', 'USD776181S1', 'US9948786B2', 'WO2016187483A1', 'KR101613287B1', 'US9704298B2', 'KR102517104B1', 'JP2018005091A', 'CN106250187A', 'US10592867B2', 'US20180150931A1', 'US9961302B1', 'US10516707B2', 'US10878474B1', 'US10440073B2', 'EP3388929A1', 'US10375125B2', 'US10375474B2', 'US10477148B2', 'US10516709B2', 'US10706391B2', 'US10091348B1', 'US10574886B2', 'WO2019226001A1', 'WO2019228842A1', 'CN108877311A', 'CN109063039A', 'CN109191369B', 'US11394848B2', 'CN109814709A', 'US10970578B2', 'US11011055B2', 'US11025837B2', 'US10944921B2', 'US10887531B2', 'KR102637416B1', 'US11601605B2', 'KR20220039110A', 'KR102442359B1', 'EP4113987B1', 'CN113938653A', 'US6552744B2', 'US6433835B1', 'JP3548459B2', 'US6792615B1', 'US6452597B1', 'JP3824298B2', 'US7080325B2', 'US7224847B2', 'US20040228401A1', 'US7495694B2', 'US8005831B2', 'CN101189049B', 'US7424218B2', 'US9101279B2', 'US20080147730A1', 'US8947421B2', 'US20090109341A1', 'US8711176B2', 'US8239758B2', 'US20100145676A1', 'US20100208033A1', 'KR101561913B1', 'US20110209201A1', 'US9901828B2', 'US9635251B2', 'US20120036444A1', 'WO2012039467A1', 'US9462280B2', 'US9057874B2', 'US20120221687A1', 'JP5765019B2', 'EP2888634A4']","['CN104067317A', 'BR112016002720B1', 'CN104376118B', 'CN106250187A', 'CN108877311A', 'CN109063039A', 'CN109191369B', 'CN109814709A', 'CN113938653A']",['CN101189049B'],"['CN104067317A', 'BR112016002720B1', 'CN104376118B', 'CN106250187A', 'CN108877311A', 'CN109063039A', 'CN109191369B', 'CN109814709A', 'CN113938653A', 'CN101189049B']"
+IN2014CN03680A,Patent IN2014CN03680A ,IN,2015-09-25,The invention provides a droplet encapsulate comprising: a drop of a hydrophobic medium; a peripheral layer of non polymeric amphipathic molecules around the surface of the drop; and an aqueous droplet within the peripheral layer the aqueous droplet comprising: (a) an aqueous medium and (b) an outer layer of non polymeric amphipathic molecules around the surface of the aqueous medium. The invention also provides processes for preparing the droplet encapsulates. Various uses of the droplet encapsulates are also described including their use as drug delivery vehicles in synthetic biology and in the study of membrane proteins.,A61K9/113,"Multiple emulsions, e.g. oil-in-water-in-oil",,,John Hagan Pryce Bayley,"['GB201119032D0', 'GB201219201D0', 'GB201219196D0', 'KR102284661B1', 'US9427737B2', 'FR3000688B1', 'WO2014145582A2', 'CA2918707A1', 'AU2015245217A1', 'ES2789000T3', 'WO2017004504A1', 'EP3387108B1', 'US11549097B2', 'GB201603591D0', 'GB201615741D0', 'GB2561157A', 'CN110961055B', 'EP4130013A1', 'CN112588218B', 'CN114250190A']","['US4812856A', 'US5104736A', 'US4934564A', 'US5858399A', 'US5464629A', 'US6531156B1', 'DE4438232A1', 'US5891467A', 'CA2564120C', 'US6106858A', 'US7470547B2', 'US6461812B2', 'EP1137396B1', 'EP1099484B1', 'US20030048341A1', 'US20020106308A1', 'US20030119193A1', 'US7943067B2', 'US6995024B2', 'US6962747B1', 'US6945638B2', 'US6960298B2', 'FR2846041B1', 'US7160614B2', 'CA2523657A1', 'WO2004103510A2', 'US7051654B2', 'US7217410B2', 'JPWO2005053643A1', 'CA2549796A1', 'KR20070037432A', 'EP2248578B1', 'US20060210443A1', 'GB0505971D0', 'WO2006108183A2', 'JP2007046595A', 'JP5114702B2', 'US20070148697A1', 'US8216855B2', 'WO2007101174A2', 'US8492168B2', 'US7439014B2', 'US7901947B2', 'WO2007124023A2', 'US20070293449A1', 'KR100817086B1', 'GB0614835D0', 'CN104323268A', 'EP1920765A1', 'WO2008121342A2', 'GB0716264D0', 'US8293339B2', 'WO2009049089A1', 'EP2232535A4', 'WO2009111723A1', 'US8270148B2', 'WO2009148598A1', 'US9156010B2', 'GB0909154D0', 'WO2010060080A1', 'WO2010110471A1', 'JP5487666B2', 'EP2599548B1', 'GB0913823D0', 'US8992984B1', 'ES2671594T3', 'US20110312541A1', 'US20120006681A1', 'CN103167868B', 'KR101550941B1', 'CN105496601A', 'JP2012166159A', 'US8944083B2', 'CN103930210B', 'GB201119032D0', 'US20130319861A1', 'US9223317B2', 'US20140023697A1', 'GB201219196D0', 'GB201219201D0', 'WO2014064444A1', 'KR102284661B1']","['GB201119032D0', 'GB201219201D0', 'GB201219196D0', 'KR102284661B1', 'US9427737B2', 'FR3000688B1', 'WO2014145582A2', 'CA2918707A1', 'AU2015245217A1', 'ES2789000T3', 'WO2017004504A1', 'EP3387108B1', 'US11549097B2', 'GB201603591D0', 'GB201615741D0', 'GB2561157A', 'CN110961055B', 'EP4130013A1', 'CN112588218B', 'CN114250190A', 'US4812856A', 'US5104736A', 'US4934564A', 'US5858399A', 'US5464629A', 'US6531156B1', 'DE4438232A1', 'US5891467A', 'CA2564120C', 'US6106858A', 'US7470547B2', 'US6461812B2', 'EP1137396B1', 'EP1099484B1', 'US20030048341A1', 'US20020106308A1', 'US20030119193A1', 'US7943067B2', 'US6995024B2', 'US6962747B1', 'US6945638B2', 'US6960298B2', 'FR2846041B1', 'US7160614B2', 'CA2523657A1', 'WO2004103510A2', 'US7051654B2', 'US7217410B2', 'JPWO2005053643A1', 'CA2549796A1', 'KR20070037432A', 'EP2248578B1', 'US20060210443A1', 'GB0505971D0', 'WO2006108183A2', 'JP2007046595A', 'JP5114702B2', 'US20070148697A1', 'US8216855B2', 'WO2007101174A2', 'US8492168B2', 'US7439014B2', 'US7901947B2', 'WO2007124023A2', 'US20070293449A1', 'KR100817086B1', 'GB0614835D0', 'CN104323268A', 'EP1920765A1', 'WO2008121342A2', 'GB0716264D0', 'US8293339B2', 'WO2009049089A1', 'EP2232535A4', 'WO2009111723A1', 'US8270148B2', 'WO2009148598A1', 'US9156010B2', 'GB0909154D0', 'WO2010060080A1', 'WO2010110471A1', 'JP5487666B2', 'EP2599548B1', 'GB0913823D0', 'US8992984B1', 'ES2671594T3', 'US20110312541A1', 'US20120006681A1', 'CN103167868B', 'KR101550941B1', 'CN105496601A', 'JP2012166159A', 'US8944083B2', 'CN103930210B', 'GB201119032D0', 'US20130319861A1', 'US9223317B2', 'US20140023697A1', 'GB201219196D0', 'GB201219201D0', 'WO2014064444A1', 'KR102284661B1']","['CN110961055B', 'CN112588218B', 'CN114250190A']","['CN104323268A', 'CN103167868B', 'CN105496601A', 'CN103930210B']","['CN110961055B', 'CN112588218B', 'CN114250190A', 'CN104323268A', 'CN103167868B', 'CN105496601A', 'CN103930210B']"
+IN2014DN10472A,Patent IN2014DN10472A ,IN,2015-08-21,A method and apparatus for firearm training simulator which simulates realistic recoil of conventional firearms. The method and apparatus incorporates a linear motor and controllable mass for generating recoil. One embodiment includes an adjusting system for adjusting the amount of recoil provided. Also provided are means for simulating semi automatic and/or full automatic operation of firearms. One embodiment can include a laser emitter which simulates the path for a bullet fired from a firearm that the method and apparatus is simulating.,F41A33/06,Recoil simulators,,,Kyle Monti,"['PT3190128T', 'US10852093B2', 'US9146069B2', 'US20150226509A1', 'US9297607B2', 'US10054385B1', 'WO2016070201A1', 'US9746273B2', 'US9945632B1', 'CN108791545B', 'USD757879S1', 'WO2016100358A1', 'US10451376B2', 'CN104697398B', 'DE102015008799B4', 'RU2698652C1', 'KR101827365B1', 'US10054387B2', 'CN109074148B', 'ES2963807T3', 'US10488136B2', 'CN106352735B', 'CN106448325B', 'CN108627046B', 'CN107045816A', 'US10119779B1', 'WO2019013806A1', 'US10634442B2', 'RU2690964C1', 'US11668544B1', 'US10907928B1', 'US10976130B1', 'US10976129B1', 'FR3091582B1', 'CN109903631B', 'US11378347B2', 'CN110525660B', 'KR102093831B1', 'CN111121535B', 'CN111623665A', 'CN112050682A', 'WO2022051690A1', 'KR20230144004A', 'US11946716B2', 'NO347155B1', 'CN112529138B', 'GB2602788B', 'US20240060743A1', 'WO2023287974A1', 'US20230169881A1', 'WO2023167683A1', 'US20230400277A1']","['US2023497A', 'US2398813A', 'US2520281A', 'US2708319A', 'US2674923A', 'US2845270A', 'US2995834A', 'US2928190A', 'US3088225A', 'US3057102A', 'US3220732A', 'US3238642A', 'US3334425A', 'US4019423A', 'US3704530A', 'JPS5126000B2', 'US3964178A', 'JPS5431840Y2', 'FR2345694A1', 'US4079525A', 'US4050166A', 'FR2384226A1', 'US4194304A', 'US4302190A', 'FR2492088A1', 'US4321043A', 'US4380437A', 'US4480999A', 'US4725235A', 'ATE74201T1', 'US4804325A', 'US4812122A', 'US4829877A', 'US4963096A', 'JPH04212986A', 'US5201658A', 'FR2685464B1', 'JPH05192449A', 'US5244431A', 'EP0768506B1', 'US5947738A', 'FR2754048B1', 'IL119463A', 'GB2319076B', 'JP2998664B2', 'WO1999010700A1', 'IL135650A0', 'US6088019A', 'US6707443B2', 'AU7725600A', 'US6680729B1', 'AU2001237945A1', 'JP2004537701A', 'US6575753B2', 'AU2001268330A1', 'US6874492B1', 'US6820608B2', 'US6641480B2', 'FR2821417B1', 'FR2822533B1', 'FR2822534B1', 'US7202851B2', 'WO2002101318A2', 'US9795747B2', 'US6869285B1', 'US7510477B2', 'JP3971397B2', 'US20050248549A1', 'US7681483B1', 'JP4584795B2', 'US7471019B2', 'US8519566B2', 'JP5315053B2', 'JP4569892B2', 'JP5136875B2', 'KR101486889B1', 'ITAN20060081A1', 'DE102007000085A1', 'WO2009025891A2', 'JP4950798B2', 'US8084969B2', 'US8827706B2', 'US8356995B2', 'JP5622070B2', 'CN103795220B', 'WO2010080766A2', 'US8166797B2', 'ATE516475T1', 'US8698736B2', 'CN102422244A', 'US9754512B2', 'JP5980201B2', 'FR2962839B1', 'US8602785B2', 'US8449346B2', 'WO2012082072A1', 'US9318032B2', 'US8920172B1', 'JP6316186B2', 'US8797152B2', 'RU114142U1', 'US9146069B2', 'US10036608B2']","['PT3190128T', 'US10852093B2', 'US9146069B2', 'US20150226509A1', 'US9297607B2', 'US10054385B1', 'WO2016070201A1', 'US9746273B2', 'US9945632B1', 'CN108791545B', 'USD757879S1', 'WO2016100358A1', 'US10451376B2', 'CN104697398B', 'DE102015008799B4', 'RU2698652C1', 'KR101827365B1', 'US10054387B2', 'CN109074148B', 'ES2963807T3', 'US10488136B2', 'CN106352735B', 'CN106448325B', 'CN108627046B', 'CN107045816A', 'US10119779B1', 'WO2019013806A1', 'US10634442B2', 'RU2690964C1', 'US11668544B1', 'US10907928B1', 'US10976130B1', 'US10976129B1', 'FR3091582B1', 'CN109903631B', 'US11378347B2', 'CN110525660B', 'KR102093831B1', 'CN111121535B', 'CN111623665A', 'CN112050682A', 'WO2022051690A1', 'KR20230144004A', 'US11946716B2', 'NO347155B1', 'CN112529138B', 'GB2602788B', 'US20240060743A1', 'WO2023287974A1', 'US20230169881A1', 'WO2023167683A1', 'US20230400277A1', 'US2023497A', 'US2398813A', 'US2520281A', 'US2708319A', 'US2674923A', 'US2845270A', 'US2995834A', 'US2928190A', 'US3088225A', 'US3057102A', 'US3220732A', 'US3238642A', 'US3334425A', 'US4019423A', 'US3704530A', 'JPS5126000B2', 'US3964178A', 'JPS5431840Y2', 'FR2345694A1', 'US4079525A', 'US4050166A', 'FR2384226A1', 'US4194304A', 'US4302190A', 'FR2492088A1', 'US4321043A', 'US4380437A', 'US4480999A', 'US4725235A', 'ATE74201T1', 'US4804325A', 'US4812122A', 'US4829877A', 'US4963096A', 'JPH04212986A', 'US5201658A', 'FR2685464B1', 'JPH05192449A', 'US5244431A', 'EP0768506B1', 'US5947738A', 'FR2754048B1', 'IL119463A', 'GB2319076B', 'JP2998664B2', 'WO1999010700A1', 'IL135650A0', 'US6088019A', 'US6707443B2', 'AU7725600A', 'US6680729B1', 'AU2001237945A1', 'JP2004537701A', 'US6575753B2', 'AU2001268330A1', 'US6874492B1', 'US6820608B2', 'US6641480B2', 'FR2821417B1', 'FR2822533B1', 'FR2822534B1', 'US7202851B2', 'WO2002101318A2', 'US9795747B2', 'US6869285B1', 'US7510477B2', 'JP3971397B2', 'US20050248549A1', 'US7681483B1', 'JP4584795B2', 'US7471019B2', 'US8519566B2', 'JP5315053B2', 'JP4569892B2', 'JP5136875B2', 'KR101486889B1', 'ITAN20060081A1', 'DE102007000085A1', 'WO2009025891A2', 'JP4950798B2', 'US8084969B2', 'US8827706B2', 'US8356995B2', 'JP5622070B2', 'CN103795220B', 'WO2010080766A2', 'US8166797B2', 'ATE516475T1', 'US8698736B2', 'CN102422244A', 'US9754512B2', 'JP5980201B2', 'FR2962839B1', 'US8602785B2', 'US8449346B2', 'WO2012082072A1', 'US9318032B2', 'US8920172B1', 'JP6316186B2', 'US8797152B2', 'RU114142U1', 'US9146069B2', 'US10036608B2']","['CN108791545B', 'CN104697398B', 'RU2698652C1', 'CN109074148B', 'CN106352735B', 'CN106448325B', 'CN108627046B', 'CN107045816A', 'RU2690964C1', 'CN109903631B', 'CN110525660B', 'CN111121535B', 'CN111623665A', 'CN112050682A', 'CN112529138B']","['CN103795220B', 'CN102422244A', 'RU114142U1']","['CN108791545B', 'CN104697398B', 'RU2698652C1', 'CN109074148B', 'CN106352735B', 'CN106448325B', 'CN108627046B', 'CN107045816A', 'RU2690964C1', 'CN109903631B', 'CN110525660B', 'CN111121535B', 'CN111623665A', 'CN112050682A', 'CN112529138B', 'CN103795220B', 'CN102422244A', 'RU114142U1']"
+IN2014DN11078A,Patent IN2014DN11078A ,IN,2015-09-25,The present application discloses benzathine and related compounds and their use as FBXO 3 inhibitors.,A61K31/506,"Pyrimidines; Hydrogenated pyrimidines, e.g. trimethoprim not condensed and containing further heterocyclic rings",,,Beibel Chen,"['KR102179006B1', 'WO2015089087A1', 'AU2015360482B2', 'EA034912B1', 'AU2016281656B2', 'WO2018100159A1', 'CN113663071B', 'CN114805637B']","['DE2438288A1', 'US4675189A', 'JPS60100516A', 'CA1236641A', 'JP2551756B2', 'US20030013772A1', 'US6221914B1', 'JP2000143665A', 'JP2001127869A', 'US6867299B2', 'HUP0400494A3', 'JP2001278869A', 'AU2003218729A1', 'US20040033986A1', 'US7456222B2', 'SE0302811D0', 'EP2465855A1', 'WO2008142623A2', 'KR102179006B1', 'WO2015089087A1', 'AU2015360482B2']","['KR102179006B1', 'WO2015089087A1', 'AU2015360482B2', 'EA034912B1', 'AU2016281656B2', 'WO2018100159A1', 'CN113663071B', 'CN114805637B', 'DE2438288A1', 'US4675189A', 'JPS60100516A', 'CA1236641A', 'JP2551756B2', 'US20030013772A1', 'US6221914B1', 'JP2000143665A', 'JP2001127869A', 'US6867299B2', 'HUP0400494A3', 'JP2001278869A', 'AU2003218729A1', 'US20040033986A1', 'US7456222B2', 'SE0302811D0', 'EP2465855A1', 'WO2008142623A2', 'KR102179006B1', 'WO2015089087A1', 'AU2015360482B2']","['CN113663071B', 'CN114805637B']",[],"['CN113663071B', 'CN114805637B']"
+IN2014MN02274A,Patent IN2014MN02274A ,IN,2015-08-07,Specific binding members particularly human antibodies particularly recombinant antibodies and fragments thereof which are capable of binding to and recognizing neurons in the CNS and eliciting responses in CNS neurons are provided. The antibodies are useful in the diagnosis and treatment of conditions associated with nerve damage injury or degeneration and neurodegenerative disease and in particular in the treatment or alleviation of stroke or cerebral ischemia. The antibodies variable regions or CDR domain sequences. thereof and fragments thereof of the invention may also be used in therapy in combination with chemotherapeutics immune modulators or neuroactive agents and/or with other antibodies or fragments thereof. The antibodies or active fragments thereof may be used in therapy for stroke or cerebral ischemia alone or in combination with thrombolytics such as TPA. Antibodies are exemplified by the antibodies lgM12 and lgM42 whose sequences are provided herein.,C07K16/18,"Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans",,,Moses Rodriguez,"['US20060099203A1', 'KR20230155600A', 'US11180543B2', 'ES2874558T3', 'AU2016329197B2', 'CN113035298B', 'CN113444787A', 'CN114276418B']","['GB8308235D0', 'US4816567A', 'US5776093A', 'GB9015198D0', 'CA2150262C', 'US7473423B2', 'US6306393B1', 'EP2287191B1', 'CA2525917C', 'TW200510532A', 'PL1768999T3', 'WO2006029184A2', 'EP2007899B1', 'US8796429B2', 'US10202430B2', 'KR20110011676A', 'US9228023B2', 'CA2815046C', 'US11180543B2']","['US20060099203A1', 'KR20230155600A', 'US11180543B2', 'ES2874558T3', 'AU2016329197B2', 'CN113035298B', 'CN113444787A', 'CN114276418B', 'GB8308235D0', 'US4816567A', 'US5776093A', 'GB9015198D0', 'CA2150262C', 'US7473423B2', 'US6306393B1', 'EP2287191B1', 'CA2525917C', 'TW200510532A', 'PL1768999T3', 'WO2006029184A2', 'EP2007899B1', 'US8796429B2', 'US10202430B2', 'KR20110011676A', 'US9228023B2', 'CA2815046C', 'US11180543B2']","['CN113035298B', 'CN113444787A', 'CN114276418B']",[],"['CN113035298B', 'CN113444787A', 'CN114276418B']"
+IN2014MN02333A,Patent IN2014MN02333A ,IN,2015-08-14,A humidification system for delivering humidified gases to a user can include a heater base humidification chamber having an inlet outlet and associated fluid conduit and breathing circuit including a supply conduit inspiratory conduit and optional expiratory conduit. The humidification system can include various features to help make set up less difficult and time consuming. For example the supply conduit inspiratory conduit and optional expiratory conduit can be coupled into a one piece circuit to aid set up. Various components can be color coded and can have corresponding structures to indicate which components should be connected to one another during set up. Such features can also help make the set up process more intuitive for an operator which can reduce the need for specialized training and reduce the number of potential errors.,A61M16/16,Devices to humidify the respiration air,,,James William Stanton,"['EP3738638A1', 'BR112014026771B1', 'WO2014116122A1', 'US9962514B2', 'US9746359B2', 'US9795757B2', 'US9541098B2', 'US9433743B2', 'US9707369B2', 'WO2015034374A1', 'CN115671460A', 'HUE062413T2', 'WO2015119515A1', 'CN110124174A', 'WO2015187039A1', 'US20170246417A1', 'US11278689B2', 'USD772388S1', 'EP3310420A4', 'WO2016207838A1', 'WO2018016974A1', 'JP7278944B2', 'WO2018106126A1', 'WO2018236228A1', 'US20210268224A1', 'WO2020095185A1', 'USD957620S1']","['US1154259A', 'US1085833A', 'US2073335A', 'US2510125A', 'US2516864A', 'US2621875A', 'US2634311A', 'US2590797A', 'US2745074A', 'US3117596A', 'US3163707A', 'US3283580A', 'US3404684A', 'NL150210B', 'US3394954A', 'JPS4422293Y1', 'US3485237A', 'US3638926A', 'US3588859A', 'CH507715A', 'US3623511A', 'US3582094A', 'US3659604A', 'US3703892A', 'US3777298A', 'US3864440A', 'US3757082A', 'US3806102A', 'US4060576A', 'GB1364127A', 'US3954920A', 'NL7414546A', 'US3903742A', 'US3945378A', 'US4028444A', 'US4098853A', 'CH581474A5', 'US3987133A', 'US3990727A', 'CH597997A5', 'DE2609034B2', 'US4172709A', 'US4139762A', 'US4152379A', 'DE2747488C2', 'US4183248A', 'FR2464819A1', 'US4354493A', 'US4463593A', 'US4333451A', 'US4428403A', 'DE3110903A1', 'DE3276924D1', 'US4417574A', 'US4473923A', 'ZA835856B', 'US4564748A', 'DE3246247A1', 'US4533115A', 'US4753758A', 'US4657713A', 'ATE44470T1', 'US4545290A', 'US4529867A', 'US4599895A', 'US4558708A', 'US4621632A', 'US4714078A', 'US4676237A', 'GB2173274B', 'GB8510805D0', 'AU581986B2', 'GB2176313A', 'JPH025799Y2', 'DE3618614A1', 'JPS6365845A', 'JPH0751126B2', 'JPS63161973A', 'US4988342A', 'US4813280A', 'DE3716653A1', 'FR2617943B1', 'US4830515A', 'US5233996A', 'FI82133C', 'JPH0288955A', 'NZ226784A', 'US4911559A', 'US4967744A', 'GB8827075D0', 'US5143060A', 'DE4001773A1', 'US5058588A', 'US5060506A', 'US5125069A', 'JPH03194747A', 'US5054819A', 'US5148801A', 'US5031612A', 'US5027811A', 'US5038773A', 'DE4020522A1', 'JPH05208935A', 'US5117819A', 'US5134996A', 'DE4102223A1', 'US5720293A', 'AU660694B2', 'US5630806A', 'US5181858A', 'US5213376A', 'AU660718B2', 'DE4133235A1', 'US5396884A', 'US5209225A', 'JP2773100B2', 'DE9200567U1', 'US5213138A', 'AU3713193A', 'GB9212399D0', 'JPH0623051A', 'DE4242154C2', 'JP2567134Y2', 'DE4318534C2', 'US5392770A', 'US5342126A', 'TW270248B', 'FR2712737B1', 'GB2284356B', 'US5429178A', 'US5495872A', 'US5600752A', 'AU1486195A', 'US5848223A', 'US5454061A', 'US5623940A', 'SE503771C2', 'US5483616A', 'US5488447A', 'IT1272859B', 'US5540219A', 'US5667306A', 'DE19515739C2', 'US5548879A', 'US5598837A', 'US5564415A', 'US6024694A', 'WO1997018001A1', 'US5660567A', 'DE19604201A1', 'DE19608675C2', 'CN2243015Y', 'AU2079397A', 'JP2000510721A', 'US5829428A', 'FI102918B1', 'GB9614994D0', 'US6698966B2', 'JP3557595B2', 'DE19647548C2', 'US5778872A', 'CA2222830C', 'US6053482A', 'JPH10223303A', 'US5943473A', 'US6402207B1', 'JPH11398A', 'CA2617287C', 'AU746572C', 'US20040221844A1', 'AUPO742297A0', 'USD419522S', 'JPH1133119A', 'FR2766547B1', 'DE19739472A1', 'US5938624A', 'US6138674A', 'US6078729A', 'US6039696A', 'US6126610A', 'NL1007699C2', 'DE19802340B4', 'DE19802615A1', 'US5881393A', 'US6208514B1', 'DE19808590C2', 'JPH11248076A', 'US6078818A', 'JPH11286058A', 'US6068609A', 'US6128963A', 'US6095505A', 'US6062244A', 'BG102934A', 'US6360741B2', 'AU756477C', 'US6467477B1', 'DE19915022B4', 'US6367974B1', 'US6398197B1', 'US6623352B2', 'US6600727B1', 'US6631718B1', 'US6435180B1', 'US7096864B1', 'US7063086B2', 'JP2001095920A', 'AUPQ339099A0', 'DE19951976A1', 'US7225809B1', 'JP2001129091A', 'DE19958296C1', 'DE60023342T2', 'US7163504B1', 'US6655207B1', 'DE10007506B4', 'SE0000605D0', 'DE60119407T2', 'JP2001254876A', 'US6226451B1', 'US7111624B2', 'WO2002032486A1', 'US7588029B2', 'US7120354B2', 'US6918389B2', 'WO2001076658A2', 'BR0102116B1', 'DE20010553U1', 'US7559324B2', 'US6349724B1', 'AU2001293226A1', 'US6374864B1', 'US6591061B2', 'US6508249B2', 'US6668828B1', 'JP3614768B2', 'US6895803B2', 'US6464520B2', 'EP2298401B1', 'JP4208572B2', 'EP1355689B1', 'US7043979B2', 'JP2004524088A', 'JP4420605B2', 'US6638092B2', 'US6685491B2', 'US7316769B2', 'US7284554B2', 'JPWO2002094359A1', 'CN1288377C', 'ES2266559T3', 'US7938114B2', 'DE10151397C1', 'JP2003139276A', 'US7335157B2', 'EP1314445B1', 'US6744634B2', 'US20030107325A1', 'US20040239001A1', 'US7157035B2', 'US6745770B2', 'US20030148664A1', 'US7140367B2', 'US7448383B2', 'JP2003275312A', 'US6932119B2', 'US6915705B1', 'GB0208358D0', 'US8997742B2', 'AUPS192602A0', 'US7743767B2', 'US20030200727A1', 'US6953354B2', 'US6827084B2', 'US6802452B2', 'US6648669B1', 'AU2003281774B2', 'US6874771B2', 'GB2391813B', 'US20040087213A1', 'EP1542756B1', 'CN1688358A', 'EP3009159B1', 'US7291240B2', 'AU2003244171B2', 'EP1884343B1', 'US6988497B2', 'DE10251134A1', 'WO2004039444A1', 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'CN115671460A', 'CN106156791B']","['BR112014026771B1', 'CN115671460A', 'CN110124174A', 'ZA835856B', 'CN2243015Y', 'BR0102116B1', 'CN1288377C', 'CN1688358A', 'CN1993154B', 'CN1598510A', 'CN101052596A', 'BRPI0617296A2', 'RU2009110767A', 'CN103933651B', 'CN201672170U', 'CN102971035B', 'CN106110468B', 'CN110269990B', 'CN112569438A', 'RU2657935C2', 'BR112014026771B1', 'BR112015001899A2', 'CN104955518B', 'CN115337515A', 'CN115671460A', 'CN106156791B']"
+IN2012DN06717A,Patent IN2012DN06717A ,IN,2015-10-23,A mosquito trap includes a container having an open end and a composition positioned in the container. The composition comprises at least one active agent. The mosquito trap also includes an enclosure protruding above the open end of the container. The enclosure includes an opening to access an interior of the enclosure and the open end of the container and at least one active agent.,A01M1/106,Catching insects by using Traps for flying insects,,,Dawn Wesson,"['WO2011094581A1', 'ES2367388B1', 'GB2507210B', 'US9155293B2', 'AU2013249080B2', 'CN103098781A', 'US9775335B2', 'MX2015012577A', 'CO7090247A1', 'US20140311015A1', 'CA2834034C', 'WO2016004472A1', 'WO2016015043A1', 'BR112017009830B1', 'WO2016094066A1', 'WO2016115539A1', 'HUE055720T2', 'WO2016128964A1', 'US10506804B2', 'ES2615165B1', 'TWI577282B', 'WO2018013574A1', 'CN109475117A', 'CN106710262A', 'MX2019009685A', 'US20170290323A1', 'CN109662070A', 'WO2020122875A1', 'US11877573B2', 'US12044000B2', 'IT202100017744A1', 'USD990613S1', 'US20230123062A1', 'USD998091S1', 'WO2023129620A1', 'USD971374S1', 'TWI842488B', 'USD1033587S1']","['US988977A', 'US983977A', 'CH172982A', 'US2569833A', 'US3120075A', 'JPS5710842B2', 'US4086720A', 'US4608774A', 'US4718193A', 'US4813174A', 'US4802303A', 'MX9201588A', 'US6192621B1', 'US5561936A', 'US5749168A', 'US5896697A', 'US5987810A', 'US5983557A', 'US5986557A', 'US6112452A', 'US6158165A', 'US6524605B1', 'EP1257171A2', 'US6532695B1', 'US6401384B1', 'US6543180B2', 'US7100324B2', 'US6662489B2', 'US6718687B2', 'US7082712B2', 'US7913449B2', 'US6920716B2', 'US6637149B1', 'DE10259651A1', 'US20040128903A1', 'US20040159040A1', 'US6910298B2', 'SI1659861T1', 'US6898896B1', 'US7281351B2', 'US7222453B2', 'US20050274061A1', 'USD515175S1', 'TWM281425U', 'US20060137240A1', 'US20060242891A1', 'US20060248782A1', 'US7093389B1', 'CN2904651Y', 'GB0612788D0', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y', 'US8205378B2', 'US7856753B2', 'WO2011094600A1', 'WO2011094581A1']","['WO2011094581A1', 'ES2367388B1', 'GB2507210B', 'US9155293B2', 'AU2013249080B2', 'CN103098781A', 'US9775335B2', 'MX2015012577A', 'CO7090247A1', 'US20140311015A1', 'CA2834034C', 'WO2016004472A1', 'WO2016015043A1', 'BR112017009830B1', 'WO2016094066A1', 'WO2016115539A1', 'HUE055720T2', 'WO2016128964A1', 'US10506804B2', 'ES2615165B1', 'TWI577282B', 'WO2018013574A1', 'CN109475117A', 'CN106710262A', 'MX2019009685A', 'US20170290323A1', 'CN109662070A', 'WO2020122875A1', 'US11877573B2', 'US12044000B2', 'IT202100017744A1', 'USD990613S1', 'US20230123062A1', 'USD998091S1', 'WO2023129620A1', 'USD971374S1', 'TWI842488B', 'USD1033587S1', 'US988977A', 'US983977A', 'CH172982A', 'US2569833A', 'US3120075A', 'JPS5710842B2', 'US4086720A', 'US4608774A', 'US4718193A', 'US4813174A', 'US4802303A', 'MX9201588A', 'US6192621B1', 'US5561936A', 'US5749168A', 'US5896697A', 'US5987810A', 'US5983557A', 'US5986557A', 'US6112452A', 'US6158165A', 'US6524605B1', 'EP1257171A2', 'US6532695B1', 'US6401384B1', 'US6543180B2', 'US7100324B2', 'US6662489B2', 'US6718687B2', 'US7082712B2', 'US7913449B2', 'US6920716B2', 'US6637149B1', 'DE10259651A1', 'US20040128903A1', 'US20040159040A1', 'US6910298B2', 'SI1659861T1', 'US6898896B1', 'US7281351B2', 'US7222453B2', 'US20050274061A1', 'USD515175S1', 'TWM281425U', 'US20060137240A1', 'US20060242891A1', 'US20060248782A1', 'US7093389B1', 'CN2904651Y', 'GB0612788D0', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y', 'US8205378B2', 'US7856753B2', 'WO2011094600A1', 'WO2011094581A1']","['CN103098781A', 'BR112017009830B1', 'CN109475117A', 'CN106710262A', 'CN109662070A']","['CN2904651Y', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y']","['CN103098781A', 'BR112017009830B1', 'CN109475117A', 'CN106710262A', 'CN109662070A', 'CN2904651Y', 'CN2917281Y', 'CN200966280Y', 'CN201004930Y']"
+IN2012DN00218A,Patent IN2012DN00218A ,IN,2015-05-01,"A communications system (100) includes a receiver unit (120, 420) connected with a transmission channel (105, 405, 505). The receiver unit (120, 420) determines a signal power of a first communications signal received over the transmission channel (105, 405, 505). A transmitter unit (110, 510) is connected with the transmission channel (105, 405, 505) and transmits a second communications signal, wherein a gain of the communications signal being output by the transmitter unit (110, 510) is controllable. A control unit (151, 551) controls the gain of the transmitter unit in response to the determined signal power. At the receiver unit (120, 420), detection of broadcast signal ingress during data communication is improved and methods for avoiding disturbances between coexisting communications systems may become more reliable. Different distances between successive training symbols (606) suitable for channel estimation may be provided in order to enhance the noise measurement.",H04L27/2626,Arrangements specific to the transmitter only,,,Schwager Andreas,"['WO2011050902A1', 'TWI521902B', 'US20120027062A1', 'JP5696888B2', 'CN103460614B', 'DE102011052734A1', 'EP2645634A1', 'HUE029779T2', 'TW201445939A', 'US9042432B2', 'US20150111583A1', 'US20150318893A1', 'US10090706B2', 'JP2017017639A', 'CN107645463B', 'US11149543B2', 'CN111565402B', 'RU2739940C1', 'KR102511557B1']","['SU1059679A1', 'SU1524188A1', 'US5852630A', 'US6426983B1', 'KR20010087690A', 'US6542029B1', 'US6993291B2', 'US7212586B2', 'EP1606903A1', 'KR100603561B1', 'JP4754268B2', 'US8194722B2', 'WO2006064541A1', 'US7522893B2', 'EP1718019B1', 'US7783260B2', 'TW200906672A', 'JP5448359B2', 'EP2020758A1', 'GB0725110D0', 'JP5151771B2']","['WO2011050902A1', 'TWI521902B', 'US20120027062A1', 'JP5696888B2', 'CN103460614B', 'DE102011052734A1', 'EP2645634A1', 'HUE029779T2', 'TW201445939A', 'US9042432B2', 'US20150111583A1', 'US20150318893A1', 'US10090706B2', 'JP2017017639A', 'CN107645463B', 'US11149543B2', 'CN111565402B', 'RU2739940C1', 'KR102511557B1', 'SU1059679A1', 'SU1524188A1', 'US5852630A', 'US6426983B1', 'KR20010087690A', 'US6542029B1', 'US6993291B2', 'US7212586B2', 'EP1606903A1', 'KR100603561B1', 'JP4754268B2', 'US8194722B2', 'WO2006064541A1', 'US7522893B2', 'EP1718019B1', 'US7783260B2', 'TW200906672A', 'JP5448359B2', 'EP2020758A1', 'GB0725110D0', 'JP5151771B2']","['CN103460614B', 'CN107645463B', 'CN111565402B', 'RU2739940C1']",[],"['CN103460614B', 'CN107645463B', 'CN111565402B', 'RU2739940C1']"
+IN2014DN05932A,Patent IN2014DN05932A ,IN,2015-06-12,A scooter is described with a chassis (1) which has a guide bearing (2) for a steering column (4) holding the front wheel (3) and a supporting arm (5) which has a seat (11) for a pivotable footboard (7) which is provided with a rear wheel (8). In order to achieve simple readjustment to a training bike it is proposed that the supporting arm (5) which is connected to the footboard (7) is coupled to the guide bearing (2) so as to be pivotable about an axis (10) running through the centre point of the rear wheel (8).,B62K13/08,Frames,,,Wolfgang Berndorfer,"['AT511702B1', 'CN203294263U', 'US9499215B2', 'AT514322B1', 'US9233728B2', 'JP6510240B2', 'US9284008B2', 'AT517807A1', 'CZ2015716A3', 'RU2631761C1', 'JP6380485B2', 'JP6575470B2', 'JP6497368B2', 'JP6387061B2', 'DE102017006625A1', 'GB2566701B', 'CN108773441A', 'US11345429B2', 'CN115107922B', 'USD898834S1', 'GB2581787B', 'US11136089B2', 'TWI694946B', 'CN109835433B', 'CN109878623B', 'RU192181U1', 'USD948626S1', 'USD971086S1', 'CN114620174B', 'US11517493B1']","['US1379305A', 'US1838877A', 'SU988637A1', 'US4657270A', 'US6089586A', 'DE29819701U1', 'SE0201282D0', 'CN2590852Y', 'CN1799925A', 'USD524699S1', 'DE202006017904U1', 'ITMI20080070A1', 'AT507557B1', 'CN201694317U', 'TWM410706U', 'CN201980351U', 'CN201980348U', 'CN102092438B', 'AT511702B1']","['AT511702B1', 'CN203294263U', 'US9499215B2', 'AT514322B1', 'US9233728B2', 'JP6510240B2', 'US9284008B2', 'AT517807A1', 'CZ2015716A3', 'RU2631761C1', 'JP6380485B2', 'JP6575470B2', 'JP6497368B2', 'JP6387061B2', 'DE102017006625A1', 'GB2566701B', 'CN108773441A', 'US11345429B2', 'CN115107922B', 'USD898834S1', 'GB2581787B', 'US11136089B2', 'TWI694946B', 'CN109835433B', 'CN109878623B', 'RU192181U1', 'USD948626S1', 'USD971086S1', 'CN114620174B', 'US11517493B1', 'US1379305A', 'US1838877A', 'SU988637A1', 'US4657270A', 'US6089586A', 'DE29819701U1', 'SE0201282D0', 'CN2590852Y', 'CN1799925A', 'USD524699S1', 'DE202006017904U1', 'ITMI20080070A1', 'AT507557B1', 'CN201694317U', 'TWM410706U', 'CN201980351U', 'CN201980348U', 'CN102092438B', 'AT511702B1']","['CN203294263U', 'RU2631761C1', 'CN108773441A', 'CN115107922B', 'CN109835433B', 'CN109878623B', 'RU192181U1', 'CN114620174B']","['CN2590852Y', 'CN1799925A', 'CN201694317U', 'CN201980351U', 'CN201980348U', 'CN102092438B']","['CN203294263U', 'RU2631761C1', 'CN108773441A', 'CN115107922B', 'CN109835433B', 'CN109878623B', 'RU192181U1', 'CN114620174B', 'CN2590852Y', 'CN1799925A', 'CN201694317U', 'CN201980351U', 'CN201980348U', 'CN102092438B']"
+IN2012DN02337A,Patent IN2012DN02337A ,IN,2015-08-21,"Multiple modality contrast can be used to produce images that can be combined and rendered to produce images similar to those produced with wavelength absorbing stains viewed under transmitted white light illumination. Images obtained with other complementary contrast modalities can be presented using engineered color schemes based on classical contrast methods used to reveal the same anatomical structures and histochemistry, thereby providing relevance to medical training and experience. Dark-field contrast images derived from refractive index and fluorescent DAPI counterstain images are combined to produce images similar to those obtained with conventional H&E staining for pathology interpretation. Such multi-modal image data can be streamed for live navigation of histological samples, and can be combined with molecular localizations of genetic DNA probes (FISH), sites of mRNA expression (mRNA-ISH), and immunohistochemical (IHC) probes localized on the same tissue sections, used to evaluate and map tissue sections prepared for imaging mass spectrometry.",G01N21/6456,Spatial resolved fluorescence measurements; Imaging,,,Garsha Karl,"['CN103261878B', 'US8639013B2', 'JP5826561B2', 'JP5784435B2', 'CN102426124B', 'SG193046A1', 'US9194800B2', 'EP2929420B1', 'RU2012156158A', 'JP6503335B2', 'US9786050B2', 'CN113349707A', 'TW201546486A', 'GB2528283B', 'JP6531403B2', 'US10571400B2', 'US10672505B2', 'US9953133B2', 'JP6910068B2', 'US10962453B2', 'US10839509B2', 'JPWO2017060954A1', 'JP6703824B2', 'JP6597316B2', 'WO2017126420A1', 'JP7033082B2', 'WO2017139367A1', 'EP3440629B1', 'EP3469548B1', 'EP3264741A1', 'US10324041B2', 'US11047854B2', 'US10580130B2', 'TWI654443B', 'US11169092B2', 'JP7014794B2', 'TWI659395B', 'EP3695198A4', 'US10446113B2', 'EP3762854A1', 'TWI683283B', 'JP7007227B2', 'JP7298993B2', 'US10585042B2', 'CN110648371B', 'JP2021529951A', 'JP7116175B2', 'US12016690B2', 'EP3924722A1', 'JP7470339B2', 'US11808703B2', 'EP3805838B1', 'KR102302333B1', 'US11415571B2', 'FR3109159B1', 'US11561178B2', 'EP3907497B1', 'WO2022030201A1', 'JP7492881B2', 'US12014830B2', 'CN115656120B', 'DE102022130251A1', 'CN117706102B']","['US4288323A', 'US5162990A', 'US5249077A', 'US6007994A', 'JP4348574B2', 'CA2243090A1', 'US8406498B2', 'US7450229B2', 'US8131053B2', 'EP1169722A1', 'US6649351B2', 'EP1196632A2', 'US6195451B1', 'AU6754900A', 'US6649138B2', 'US20020083888A1', 'CA2453450A1', 'DE10144250A1', 'JP2006014868A', 'JP2008526270A', 'EP1681015A1', 'US7524631B2', 'US8041409B2', 'KR100708932B1', 'EP1780672A1', 'EP1957983A4', 'US8010184B2', 'WO2007064959A2', 'EP1967885A4', 'CN101351736A', 'JP4614000B2', 'WO2008039758A2', 'US8244021B2', 'US7327859B1', 'JP5013410B2', 'US7819489B2', 'US20090129650A1', 'CN101216601B', 'JP4288323B1', 'US8849006B2', 'US8948488B2', 'JP5338573B2', 'US8269827B2', 'JP5832537B2']","['CN103261878B', 'US8639013B2', 'JP5826561B2', 'JP5784435B2', 'CN102426124B', 'SG193046A1', 'US9194800B2', 'EP2929420B1', 'RU2012156158A', 'JP6503335B2', 'US9786050B2', 'CN113349707A', 'TW201546486A', 'GB2528283B', 'JP6531403B2', 'US10571400B2', 'US10672505B2', 'US9953133B2', 'JP6910068B2', 'US10962453B2', 'US10839509B2', 'JPWO2017060954A1', 'JP6703824B2', 'JP6597316B2', 'WO2017126420A1', 'JP7033082B2', 'WO2017139367A1', 'EP3440629B1', 'EP3469548B1', 'EP3264741A1', 'US10324041B2', 'US11047854B2', 'US10580130B2', 'TWI654443B', 'US11169092B2', 'JP7014794B2', 'TWI659395B', 'EP3695198A4', 'US10446113B2', 'EP3762854A1', 'TWI683283B', 'JP7007227B2', 'JP7298993B2', 'US10585042B2', 'CN110648371B', 'JP2021529951A', 'JP7116175B2', 'US12016690B2', 'EP3924722A1', 'JP7470339B2', 'US11808703B2', 'EP3805838B1', 'KR102302333B1', 'US11415571B2', 'FR3109159B1', 'US11561178B2', 'EP3907497B1', 'WO2022030201A1', 'JP7492881B2', 'US12014830B2', 'CN115656120B', 'DE102022130251A1', 'CN117706102B', 'US4288323A', 'US5162990A', 'US5249077A', 'US6007994A', 'JP4348574B2', 'CA2243090A1', 'US8406498B2', 'US7450229B2', 'US8131053B2', 'EP1169722A1', 'US6649351B2', 'EP1196632A2', 'US6195451B1', 'AU6754900A', 'US6649138B2', 'US20020083888A1', 'CA2453450A1', 'DE10144250A1', 'JP2006014868A', 'JP2008526270A', 'EP1681015A1', 'US7524631B2', 'US8041409B2', 'KR100708932B1', 'EP1780672A1', 'EP1957983A4', 'US8010184B2', 'WO2007064959A2', 'EP1967885A4', 'CN101351736A', 'JP4614000B2', 'WO2008039758A2', 'US8244021B2', 'US7327859B1', 'JP5013410B2', 'US7819489B2', 'US20090129650A1', 'CN101216601B', 'JP4288323B1', 'US8849006B2', 'US8948488B2', 'JP5338573B2', 'US8269827B2', 'JP5832537B2']","['CN103261878B', 'CN102426124B', 'RU2012156158A', 'CN113349707A', 'CN110648371B', 'CN115656120B', 'CN117706102B']","['CN101351736A', 'CN101216601B']","['CN103261878B', 'CN102426124B', 'RU2012156158A', 'CN113349707A', 'CN110648371B', 'CN115656120B', 'CN117706102B', 'CN101351736A', 'CN101216601B']"
+IN2013CN00288A,Patent IN2013CN00288A ,IN,2015-07-03,A handheld field maintenance tool (52 102) includes a training mode. The handheld field maintenance tool (52 102) has a process communication module (121 138) operably coupleable to a field device (22 23 104) a user interface (156) and a controller (130) coupled to the process communication module (121 138) and the user interface (156). The controller (130) is configured to interact with a user through the user interface (156) and is configured to provide a simulation function where at least one characteristic of the field device (22 23 104) indicated through the user interface (156) is generated by the controller (130) instead of the field device (22 23 104).,G05B19/418,"Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS] or computer integrated manufacturing [CIM]",,,Brad N Mathiowetz,"['WO2010132761A2', 'EP2430502A1', 'US10268180B2', 'JP2012133690A', 'US9080683B2', 'US9065813B2', 'US9405285B2', 'EP2740156B1', 'DE102011081517A1', 'US8818417B2', 'US10460267B2', 'JP5200174B1', 'DE102012101461A1', 'US9143402B2', 'DE102012102516A1', 'EP2645335A1', 'US20130290057A1', 'FR2990286B1', 'WO2013178248A1', 'JP5549710B2', 'DE202012006550U1', 'DE102012108990A1', 'WO2014056076A1', 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'US8126695B2', 'CN102239452A', 'US8374094B2', 'US20100175029A1', 'US8224256B2', 'US20100267359A1', 'WO2010132761A2', 'EP2430502A1', 'WO2010151491A1', 'US8180948B2', 'DE102009028195A1', 'CA2710269C', 'US8112669B2', 'CN101763576A', 'US9494931B2', 'CN201518523U', 'CN102713992B', 'JP4947175B2', 'DE102010026678B4', 'US10268180B2', 'KR20120065817A', 'CN102063258B', 'US9098471B2', 'CN103500166B', 'CN104021766B', 'US20180024847A1', 'JP2019174918A']","['CN103279780A', 'CN103606318B', 'BR112016021126B1', 'CN104270214A', 'CN104298425B', 'CN106707852B', 'CN106814675A', 'CN107562040A', 'CN112099629B']","['CN101057191A', 'CN100419726C', 'CN101681165B', 'CN102239452A', 'CN101763576A', 'CN201518523U', 'CN102713992B', 'CN102063258B', 'CN103500166B', 'CN104021766B']","['CN103279780A', 'CN103606318B', 'BR112016021126B1', 'CN104270214A', 'CN104298425B', 'CN106707852B', 'CN106814675A', 'CN107562040A', 'CN112099629B', 'CN101057191A', 'CN100419726C', 'CN101681165B', 'CN102239452A', 'CN101763576A', 'CN201518523U', 'CN102713992B', 'CN102063258B', 'CN103500166B', 'CN104021766B']"
+IN2014CN03892A,Patent IN2014CN03892A ,IN,2015-10-16,The invention provides genetically modified non human animals that express a humanized MHC II protein (humanized MHC II a and ß polypeptides) as well as embryos cells and tissues comprising the same. Also provided are constructs for making said genetically modified animals and methods of making the same. Methods of using the genetically modified animals to study various aspects of human immune system are provided.,A01K67/0278,"Knock-in vertebrates, e.g. humanised vertebrates",,,Lynn Macdonald,"['EP2016380A4', 'CN108866101A', 'PT2770822T', 'US9043996B2', 'SI2958938T1', 'US10154658B2', 'US20150342163A1', 'AU2014249148B2', 'ES2959333T3', 'DK3138397T3', 'KR102173260B1', 'PT3129400T', 'NO2785538T3', 'KR102482295B1', 'CN107072184A', 'DK3223605T3', 'KR102617691B1', 'SI3808775T1', 'EP4248744A3', 'BR112018010158A2', 'CN108779159B', 'RU2749715C2', 'KR102598120B1', 'IL274740B2', 'CN116874591A', 'IL314733A', 'SG11202011284RA', 'IL292406A', 'CA3163549A1', 'CN118511853A', 'WO2023240109A1', 'WO2023240124A1', 'WO2024064860A1', 'WO2024159071A1']","['US5413923A', 'US5574205A', 'EP0950707B1', 'US6150584A', 'GB9100481D0', 'WO1993005817A1', 'WO1994006908A1', 'US5523226A', 'GB9315303D0', 'US5965787A', 'US6002066A', 'EP0910409A4', 'CA2273194C', 'AU741130B2', 'US6372955B1', 'US6147275A', 'AU1023401A', 'US7067308B1', 'WO2002000933A2', 'US6586251B2', 'US7105348B2', 'US6596541B2', 'AU2002222610A1', 'CA2432133C', 'FR2827302B1', 'US20040072262A1', 'US7663017B2', 'DE10347710B4', 'JP4857450B2', 'PL1802193T3', 'EP1878798A1', 'EP1878342A1', 'HU0700534D0', 'RU2448979C2', 'TWI476280B', 'US20090328240A1', 'PT2564695E', 'CN101695587B', 'JP2013538555A', 'US9557323B2', 'US9043996B2', 'PT2770822T', 'SI2958938T1', 'US10154658B2', 'US20150342163A1', 'AU2014249148B2', 'EP4248744A3']","['EP2016380A4', 'CN108866101A', 'PT2770822T', 'US9043996B2', 'SI2958938T1', 'US10154658B2', 'US20150342163A1', 'AU2014249148B2', 'ES2959333T3', 'DK3138397T3', 'KR102173260B1', 'PT3129400T', 'NO2785538T3', 'KR102482295B1', 'CN107072184A', 'DK3223605T3', 'KR102617691B1', 'SI3808775T1', 'EP4248744A3', 'BR112018010158A2', 'CN108779159B', 'RU2749715C2', 'KR102598120B1', 'IL274740B2', 'CN116874591A', 'IL314733A', 'SG11202011284RA', 'IL292406A', 'CA3163549A1', 'CN118511853A', 'WO2023240109A1', 'WO2023240124A1', 'WO2024064860A1', 'WO2024159071A1', 'US5413923A', 'US5574205A', 'EP0950707B1', 'US6150584A', 'GB9100481D0', 'WO1993005817A1', 'WO1994006908A1', 'US5523226A', 'GB9315303D0', 'US5965787A', 'US6002066A', 'EP0910409A4', 'CA2273194C', 'AU741130B2', 'US6372955B1', 'US6147275A', 'AU1023401A', 'US7067308B1', 'WO2002000933A2', 'US6586251B2', 'US7105348B2', 'US6596541B2', 'AU2002222610A1', 'CA2432133C', 'FR2827302B1', 'US20040072262A1', 'US7663017B2', 'DE10347710B4', 'JP4857450B2', 'PL1802193T3', 'EP1878798A1', 'EP1878342A1', 'HU0700534D0', 'RU2448979C2', 'TWI476280B', 'US20090328240A1', 'PT2564695E', 'CN101695587B', 'JP2013538555A', 'US9557323B2', 'US9043996B2', 'PT2770822T', 'SI2958938T1', 'US10154658B2', 'US20150342163A1', 'AU2014249148B2', 'EP4248744A3']","['CN108866101A', 'CN107072184A', 'BR112018010158A2', 'CN108779159B', 'RU2749715C2', 'CN116874591A', 'CN118511853A']","['RU2448979C2', 'CN101695587B']","['CN108866101A', 'CN107072184A', 'BR112018010158A2', 'CN108779159B', 'RU2749715C2', 'CN116874591A', 'CN118511853A', 'RU2448979C2', 'CN101695587B']"
+IN2014DN03386A,Patent IN2014DN03386A ,IN,2015-06-05,A method for classifying objects from one or more images comprising the steps of: generating a trained classification process wherein the generation comprises the steps of extracting features from one or more training images and clustering said features into one or more groups of features termed visual words; storing data for each of said visual words including colour and texture information as descriptor vectors; and generating a vocabulary tree to store clusters of visual words with common characteristics; and using the trained classification process to classify objects in said one or more images wherein the usage comprises the steps of extracting features from said one or more images and clustering said features into groups of features termed visual words; searching the vocabulary tree to determine the closest matching clusters of visual words; and classifying objects based on the closest matching clusters of visual words in the vocabulary tree.,G06F16/5838,"Retrieval characterised by using metadata, e.g. metadata not derived from the content or metadata generated manually using metadata automatically derived from the content using colour",,,Calleja Teresa Alejandra Vidal,"['US10395125B2', 'US9251437B2', 'US9311756B2', 'US10002430B1', 'CN105359186B', 'US9659033B2', 'ES2530687B1', 'WO2015123601A2', 'US11151630B2', 'US9424484B2', 'US9471828B2', 'US9652688B2', 'US10796196B2', 'US9721186B2', 'US10534810B1', 'US10410096B2', 'US20170060867A1', 'US20170195561A1', 'US9471836B1', 'US11205103B2', 'US10366430B2', 'KR102434574B1', 'US20210092139A1', 'US11176363B2', 'CN108052876B', 'CN108052966B', 'US10529075B2', 'US10997746B2', 'DE102018212246A1', 'CN110675588B', 'CN112784632B', 'JP7235134B2', 'CN112329798B', 'CN113032562B', 'US11294723B1', 'US11893818B2', 'CN113920415A', 'CN114494755B', 'CN115631388B']","['US6993185B2', 'US7725484B2', 'US8111923B2', 'US8489627B1']","['US10395125B2', 'US9251437B2', 'US9311756B2', 'US10002430B1', 'CN105359186B', 'US9659033B2', 'ES2530687B1', 'WO2015123601A2', 'US11151630B2', 'US9424484B2', 'US9471828B2', 'US9652688B2', 'US10796196B2', 'US9721186B2', 'US10534810B1', 'US10410096B2', 'US20170060867A1', 'US20170195561A1', 'US9471836B1', 'US11205103B2', 'US10366430B2', 'KR102434574B1', 'US20210092139A1', 'US11176363B2', 'CN108052876B', 'CN108052966B', 'US10529075B2', 'US10997746B2', 'DE102018212246A1', 'CN110675588B', 'CN112784632B', 'JP7235134B2', 'CN112329798B', 'CN113032562B', 'US11294723B1', 'US11893818B2', 'CN113920415A', 'CN114494755B', 'CN115631388B', 'US6993185B2', 'US7725484B2', 'US8111923B2', 'US8489627B1']","['CN105359186B', 'CN108052876B', 'CN108052966B', 'CN110675588B', 'CN112784632B', 'CN112329798B', 'CN113032562B', 'CN113920415A', 'CN114494755B', 'CN115631388B']",[],"['CN105359186B', 'CN108052876B', 'CN108052966B', 'CN110675588B', 'CN112784632B', 'CN112329798B', 'CN113032562B', 'CN113920415A', 'CN114494755B', 'CN115631388B']"
+IN2014DN09776A,Patent IN2014DN09776A ,IN,2015-07-31,"Provided herein are methods that include (i) determining a level of soluble ST2 in a biological sample from a subject, (i) comparing the level of soluble ST2 in the biological sample to a reference level of soluble ST2 (e.g., a level of soluble ST2 in the subject at an earlier time point), and (iii) selecting, implanting , replacing, or reprogramming an implanted cardiac device, e.g., an ICD, CRT , or CRT- D device, for a subject having an elevated level of soluble ST2 in the biological sample compared to the reference level of soluble ST2, or selecting a subject for participation in , or stratifying a subject participating in , a clinical study of a treatment for reducing the risk of a ventricular tachyarrhythmia (VTA) event. Also provided are methods for evaluating the risk of a VTA event in a subject. Also provided are kits for performing any of these methods.",G01N33/6887,"Chemical analysis of biological material, e.g. blood, urine; Testing involving biospecific ligand binding methods; Immunological testing involving proteins, peptides or amino acids from muscle, cartilage or connective tissue",,,James V Snider,"['AU2002218026A1', 'DK2336359T3', 'PL2386860T4', 'ATE517341T1', 'EP2482078B1', 'DK2827152T3', 'CN103154027B', 'EP2686689B1', 'EP3173093B1', 'EP2809392B1', 'JP2015510416A', 'ES2709697T3', 'ES2656897T3', 'IN2015DN01767A', 'US10670611B2', 'US10079073B2', 'US10324089B2', 'US10188863B2', 'JP7009977B2', 'WO2020097190A1', 'US12001939B2', 'US11446009B2', 'US11931207B2']","['WO2001070817A1', 'AU2002218026A1', 'DK2336359T3', 'WO2005042795A2', 'JP2007523324A', 'PL2386860T4', 'ATE517341T1', 'EP2482078B1', 'WO2007131031A2', 'BRPI0715126B8', 'EP1884777A1', 'ATE533061T1', 'US20090092998A1', 'EP2107377A1', 'DK2827152T3', 'GB0818650D0', 'EP2536760A4', 'CN103154027B', 'EP2686689B1', 'EP3173093B1', 'ES2709697T3', 'ES2656897T3', 'IN2015DN01767A']","['AU2002218026A1', 'DK2336359T3', 'PL2386860T4', 'ATE517341T1', 'EP2482078B1', 'DK2827152T3', 'CN103154027B', 'EP2686689B1', 'EP3173093B1', 'EP2809392B1', 'JP2015510416A', 'ES2709697T3', 'ES2656897T3', 'IN2015DN01767A', 'US10670611B2', 'US10079073B2', 'US10324089B2', 'US10188863B2', 'JP7009977B2', 'WO2020097190A1', 'US12001939B2', 'US11446009B2', 'US11931207B2', 'WO2001070817A1', 'AU2002218026A1', 'DK2336359T3', 'WO2005042795A2', 'JP2007523324A', 'PL2386860T4', 'ATE517341T1', 'EP2482078B1', 'WO2007131031A2', 'BRPI0715126B8', 'EP1884777A1', 'ATE533061T1', 'US20090092998A1', 'EP2107377A1', 'DK2827152T3', 'GB0818650D0', 'EP2536760A4', 'CN103154027B', 'EP2686689B1', 'EP3173093B1', 'ES2709697T3', 'ES2656897T3', 'IN2015DN01767A']","['CN103154027B', 'IN2015DN01767A']","['BRPI0715126B8', 'CN103154027B', 'IN2015DN01767A']","['CN103154027B', 'IN2015DN01767A', 'BRPI0715126B8', 'CN103154027B', 'IN2015DN01767A']"
+IN2014DN10161A,Patent IN2014DN10161A ,IN,2015-08-21,"A method of forming a microneedle array can include forming a microneedle array that has one or more bioactive component. The microneedle array can include a base portion and plurality of microneedles extending from the base portion, and the one or more bioactive components are present in a higher concentration in the plurality of microneedles than in the base portion.",B29C67/00,"Shaping techniques not covered by groups B29C39/00 - B29C65/00, B29C70/00 or B29C73/00",,,Louis D Falo Jr,"['US8834423B2', 'EP4112112A1', 'JP2015157072A', 'WO2015164840A1', 'CA2967017C', 'US10441768B2', 'WO2016172554A1', 'MX2018000126A', 'US11684763B2', 'KR101811513B1', 'WO2017120322A1', 'US20170209553A1', 'EP3434314B1', 'KR101719319B1', 'US20200230846A1', 'KR101692266B1', 'JP6700144B2', 'US10913776B2', 'CN107913459A', 'CN107913460B', 'EP3582752A1', 'CN106727273A', 'US11701506B2', 'US11541015B2', 'JP7295811B2', 'US20210128897A1', 'JP6624333B2', 'WO2019094349A1', 'WO2019222570A1', 'AU2019352901A1', 'US20200131483A1', 'EP3772329A1', 'CN110368576A', 'US11213482B1', 'US11202753B1', 'BR112022022039A2', 'US20220008007A1', 'CN112569465B', 'WO2022246144A1', 'GB2607115B']","['US5246783A', 'US6290991B1', 'US7422574B2', 'US5658515A', 'EP0925088A2', 'JP2001512329A', 'US6503231B1', 'US6496629B2', 'US6611707B1', 'US6743211B1', 'US6256533B1', 'US6312612B1', 'US6379324B1', 'US6331266B1', 'US6511463B1', 'IL134997A0', 'US6595947B1', 'US6607513B1', 'US6623707B1', 'US20050008683A1', 'US6656147B1', 'US6533949B1', 'CZ20031037A3', 'US7108681B2', 'US9302903B2', 'US6767211B2', 'US6663820B2', 'US20020193729A1', 'WO2003002069A2', 'US6881203B2', 'US8361037B2', 'US7429258B2', 'US6908453B2', 'US6714707B2', 'US7588552B2', 'US6945952B2', 'US6899838B2', 'AU2003275311A1', 'WO2004033021A1', 'IL152271A', 'US7578954B2', 'US8796436B2', 'JP2005035945A', 'CN1863572A', 'US8353861B2', 'BRPI0415986A', 'EP1740256A4', 'EP1699524A4', 'EP1713533A4', 'GB0402131D0', 'US8551391B2', 'CN100540086C', 'US7591806B2', 'US7315758B2', 'EP1789127A2', 'EP1786580B1', 'US7316665B2', 'US7132054B1', 'KR101246015B1', 'KR101224257B1', 'US8267889B2', 'US8057842B2', 'CA2589733C', 'JP4913030B2', 'WO2006138719A2', 'US8376984B2', 'US8012103B2', 'US8784860B2', 'WO2007064486A1', 'US7658728B2', 'ATE532553T1', 'US7699819B2', 'EP2007423A2', 'WO2007127976A2', 'US7918814B2', 'TW200744534A', 'DE102006028781A1', 'US8250729B2', 'KR100781702B1', 'WO2008020631A1', 'JPWO2008020633A1', 'DE102006040642A1', 'US8785400B2', 'US7785301B2', 'JP2008142183A', 'TW200829215A', 'US8821446B2', 'US8560059B2', 'EP2146689B1', 'EP2153863B1', 'JP2008284318A', 'WO2008157592A1', 'EP3895737A1', 'US20090016935A1', 'US20090017210A1', 'CN101801343A', 'WO2009021048A2', 'WO2009036313A1', 'EP2200499B1', 'JP5559054B2', 'GB0719577D0', 'EP2213284B1', 'CN103961792B', 'GB0725018D0', 'WO2009105564A2', 'EP2100850A1', 'NL2001718C2', 'US8795259B2', 'CA2964564C', 'CN101347652B', 'JP5063544B2', 'US8784385B2', 'US8793075B2', 'US8788211B2', 'US8788212B2', 'US8734697B2', 'JP5709137B2', 'US8798722B2', 'KR101142730B1', 'JP2010233673A', 'US9517023B2', 'EP2441437B1', 'KR101213223B1', 'WO2011010605A1', 'WO2011050283A2', 'US8834423B2', 'US8439896B2', 'US8888761B2', 'US8321012B2', 'EP2338557A1', 'USD638534S1', 'USD619245S1', 'US8328757B2', 'JP2011224332A', 'US8545741B2', 'WO2012006677A1', 'US8784373B2', 'JP5770055B2', 'EP3495015B1', 'AU2011326732B2', 'US8784383B2', 'US8795234B2', 'US8795230B2', 'AR085406A1', 'US8696637B2', 'WO2012122163A1', 'GB201107642D0', 'US8636696B2', 'KR101881609B1', 'CN103301092B', 'EP4112112A1', 'US9526884B2']","['US8834423B2', 'EP4112112A1', 'JP2015157072A', 'WO2015164840A1', 'CA2967017C', 'US10441768B2', 'WO2016172554A1', 'MX2018000126A', 'US11684763B2', 'KR101811513B1', 'WO2017120322A1', 'US20170209553A1', 'EP3434314B1', 'KR101719319B1', 'US20200230846A1', 'KR101692266B1', 'JP6700144B2', 'US10913776B2', 'CN107913459A', 'CN107913460B', 'EP3582752A1', 'CN106727273A', 'US11701506B2', 'US11541015B2', 'JP7295811B2', 'US20210128897A1', 'JP6624333B2', 'WO2019094349A1', 'WO2019222570A1', 'AU2019352901A1', 'US20200131483A1', 'EP3772329A1', 'CN110368576A', 'US11213482B1', 'US11202753B1', 'BR112022022039A2', 'US20220008007A1', 'CN112569465B', 'WO2022246144A1', 'GB2607115B', 'US5246783A', 'US6290991B1', 'US7422574B2', 'US5658515A', 'EP0925088A2', 'JP2001512329A', 'US6503231B1', 'US6496629B2', 'US6611707B1', 'US6743211B1', 'US6256533B1', 'US6312612B1', 'US6379324B1', 'US6331266B1', 'US6511463B1', 'IL134997A0', 'US6595947B1', 'US6607513B1', 'US6623707B1', 'US20050008683A1', 'US6656147B1', 'US6533949B1', 'CZ20031037A3', 'US7108681B2', 'US9302903B2', 'US6767211B2', 'US6663820B2', 'US20020193729A1', 'WO2003002069A2', 'US6881203B2', 'US8361037B2', 'US7429258B2', 'US6908453B2', 'US6714707B2', 'US7588552B2', 'US6945952B2', 'US6899838B2', 'AU2003275311A1', 'WO2004033021A1', 'IL152271A', 'US7578954B2', 'US8796436B2', 'JP2005035945A', 'CN1863572A', 'US8353861B2', 'BRPI0415986A', 'EP1740256A4', 'EP1699524A4', 'EP1713533A4', 'GB0402131D0', 'US8551391B2', 'CN100540086C', 'US7591806B2', 'US7315758B2', 'EP1789127A2', 'EP1786580B1', 'US7316665B2', 'US7132054B1', 'KR101246015B1', 'KR101224257B1', 'US8267889B2', 'US8057842B2', 'CA2589733C', 'JP4913030B2', 'WO2006138719A2', 'US8376984B2', 'US8012103B2', 'US8784860B2', 'WO2007064486A1', 'US7658728B2', 'ATE532553T1', 'US7699819B2', 'EP2007423A2', 'WO2007127976A2', 'US7918814B2', 'TW200744534A', 'DE102006028781A1', 'US8250729B2', 'KR100781702B1', 'WO2008020631A1', 'JPWO2008020633A1', 'DE102006040642A1', 'US8785400B2', 'US7785301B2', 'JP2008142183A', 'TW200829215A', 'US8821446B2', 'US8560059B2', 'EP2146689B1', 'EP2153863B1', 'JP2008284318A', 'WO2008157592A1', 'EP3895737A1', 'US20090016935A1', 'US20090017210A1', 'CN101801343A', 'WO2009021048A2', 'WO2009036313A1', 'EP2200499B1', 'JP5559054B2', 'GB0719577D0', 'EP2213284B1', 'CN103961792B', 'GB0725018D0', 'WO2009105564A2', 'EP2100850A1', 'NL2001718C2', 'US8795259B2', 'CA2964564C', 'CN101347652B', 'JP5063544B2', 'US8784385B2', 'US8793075B2', 'US8788211B2', 'US8788212B2', 'US8734697B2', 'JP5709137B2', 'US8798722B2', 'KR101142730B1', 'JP2010233673A', 'US9517023B2', 'EP2441437B1', 'KR101213223B1', 'WO2011010605A1', 'WO2011050283A2', 'US8834423B2', 'US8439896B2', 'US8888761B2', 'US8321012B2', 'EP2338557A1', 'USD638534S1', 'USD619245S1', 'US8328757B2', 'JP2011224332A', 'US8545741B2', 'WO2012006677A1', 'US8784373B2', 'JP5770055B2', 'EP3495015B1', 'AU2011326732B2', 'US8784383B2', 'US8795234B2', 'US8795230B2', 'AR085406A1', 'US8696637B2', 'WO2012122163A1', 'GB201107642D0', 'US8636696B2', 'KR101881609B1', 'CN103301092B', 'EP4112112A1', 'US9526884B2']","['CN107913459A', 'CN107913460B', 'CN106727273A', 'CN110368576A', 'BR112022022039A2', 'CN112569465B']","['CN1863572A', 'BRPI0415986A', 'CN100540086C', 'CN101801343A', 'CN103961792B', 'CN101347652B', 'CN103301092B']","['CN107913459A', 'CN107913460B', 'CN106727273A', 'CN110368576A', 'BR112022022039A2', 'CN112569465B', 'CN1863572A', 'BRPI0415986A', 'CN100540086C', 'CN101801343A', 'CN103961792B', 'CN101347652B', 'CN103301092B']"
+IN2014DN09073A,Patent IN2014DN09073A ,IN,2015-05-22,Methods and compositions are provided for preparing a biological specimen for microscopic analysis. These methods find many uses for example in medicine and research e.g. to diagnose or monitor disease or graft transplantation to study healthy or diseased tissue to screen candidate agents for toxicity and efficacy in disease modification. Also provided are reagents devices kits and systems thereof that find use in practicing the subject methods.,G01N1/31,Apparatus therefor,,,Karl A Deisseroth,"['GB201106254D0', 'EP3604555A1', 'US11021737B2', 'EP4108782B1', 'US9914967B2', 'EP4163617A1', 'EP2909337B1', 'EP2971184B1', 'DE102013205115A1', 'LT3013983T', 'DE102013216934A1', 'EP3047271B1', 'US10794802B2', 'CN103558055B', 'JP6456969B2', 'WO2015154000A1', 'KR20170013855A', 'WO2016006861A1', 'EP4328322A3', 'WO2016023009A1', 'KR101563826B1', 'EP3256844B1', 'EP4321627A3', 'US11408890B2', 'US10059990B2', 'US10526649B2', 'CN111579769B', 'CN104965016A', 'US10364457B2', 'WO2017027368A1', 'WO2017031249A1', 'US11092607B2', 'AU2016349288A1', 'WO2017096248A1', 'WO2017109057A1', 'CN105823807B', 'WO2017139501A1', 'CN108698846B', 'JP6721899B2', 'CN116200465A', 'WO2017190101A1', 'US10324022B2', 'US10281386B2', 'US10852290B2', 'EP3252452A1', 'WO2017205531A1', 'WO2017222453A1', 'CN107621462B', 'CN107674879A', 'WO2018044899A1', 'CN118389650A', 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'CN114129780B', 'RU2752751C1', 'CN112284861B', 'CN112665951B', 'CN116724125A', 'CN113004885B', 'CN115656120B']","['CN1256579C', 'CN102439398A', 'CN102859344A', 'CN102072836B', 'CN103562702A', 'CN103513411B']","['CN103558055B', 'CN111579769B', 'CN104965016A', 'CN105823807B', 'CN108698846B', 'CN116200465A', 'CN107621462B', 'CN107674879A', 'CN118389650A', 'CN106682453B', 'CN106769350B', 'CN107966477A', 'CN109612811A', 'CN109781493A', 'CN110006862B', 'CN113906147B', 'CN115485391A', 'CN111397999B', 'CN114129780B', 'RU2752751C1', 'CN112284861B', 'CN112665951B', 'CN116724125A', 'CN113004885B', 'CN115656120B', 'CN1256579C', 'CN102439398A', 'CN102859344A', 'CN102072836B', 'CN103562702A', 'CN103513411B']"
+IN2014DN07702A,Patent IN2014DN07702A ,IN,2015-05-15,"A fixation device includes a member (26) a woven material (90, 112) attached to the member and suture (118) extending through the woven material and including free regions for securing the woven material to a tissue graft. A method of securing a tissue graft includes providing a fixation member having a woven material attached thereto and suture extending through the woven material; determining a desired distance between the fixation member and a tissue graft; and attaching the woven material to the tissue graft using the suture at a position to obtain the desired distance.",A61F2/0811,Fixation devices for tendons or ligaments,,,Christopher D Harner,"['US8911474B2', 'CA2713309C', 'US9445803B2', 'US8821494B2', 'US9402620B2', 'US9974643B2', 'US10052094B2', 'US9463013B2', 'US10292694B2', 'US9757113B2', 'US10405968B2', 'US10610211B2', 'US9986992B2', 'US10568616B2', 'EP3383281B1', 'EP3503815B1', 'US10433993B2', 'USD902405S1', 'US11291438B2', 'IT201900007665A1', 'USD1022200S1', 'CN117796865B']","['GB8525565D0', 'FR2638349B1', 'US5306301A', 'US5451203A', 'GB9510637D0', 'FR2745710B1', 'ES2252800T3', 'AUPO530997A0', 'US20020165611A1', 'US6203572B1', 'US6746483B1', 'US6533802B2', 'WO2006108114A2', 'US8298284B2', 'US9017380B2', 'US8852250B2', 'US20080009900A1', 'US8529610B2', 'US8460350B2', 'CN201542777U', 'US9757132B2', 'US8926661B2']","['US8911474B2', 'CA2713309C', 'US9445803B2', 'US8821494B2', 'US9402620B2', 'US9974643B2', 'US10052094B2', 'US9463013B2', 'US10292694B2', 'US9757113B2', 'US10405968B2', 'US10610211B2', 'US9986992B2', 'US10568616B2', 'EP3383281B1', 'EP3503815B1', 'US10433993B2', 'USD902405S1', 'US11291438B2', 'IT201900007665A1', 'USD1022200S1', 'CN117796865B', 'GB8525565D0', 'FR2638349B1', 'US5306301A', 'US5451203A', 'GB9510637D0', 'FR2745710B1', 'ES2252800T3', 'AUPO530997A0', 'US20020165611A1', 'US6203572B1', 'US6746483B1', 'US6533802B2', 'WO2006108114A2', 'US8298284B2', 'US9017380B2', 'US8852250B2', 'US20080009900A1', 'US8529610B2', 'US8460350B2', 'CN201542777U', 'US9757132B2', 'US8926661B2']",['CN117796865B'],['CN201542777U'],"['CN117796865B', 'CN201542777U']"
+IN2014DE01080A,Patent IN2014DE01080A ,IN,2015-06-05,"The invention relates to a method and a device (1) for simulating an electrode welding process having an electrode holder simulator (2) and a simulated electrode ( 3 ) arranged thereon, a simulated workpiece (4), an input device (6), an 10 output device (7) and a control device (10). For the ideal training of an electrode welding process under conditions as real as possible, the control device (10) is connected to a memory (11) for storing parameters (Pi) of an ideal motion of the electrode holder simulator (2) during an igni- 15 tion process and is designed for detecting the parameters (P,) during an actual motion of the electrode holder simulator (2) and comparing them to the stored parameters (Pi) of the ideal motion of the electrode holder simulator during an ignition process and displaying the deviations between 20 the parameters (P,) of the actual mot'ion and the parameters (PI) of the ideal rilotion in the output device (7) .",G09B19/24,Use of tools,,,Josef Kreindl,"['WO2009146359A1', 'US8851896B2', 'US9483959B2', 'US9196169B2', 'US8274013B2', 'US9011154B2', 'US9101994B2', 'US9573215B2', 'US9767712B2', 'US9583014B2', 'US9368045B2', 'US9713852B2', 'US9666100B2', 'US9672757B2', 'US9728103B2', 'US9583023B2', 'US10930174B2', 'US11090753B2', 'US10056010B2', 'US10105782B2', 'US9589481B2', 'US9757819B2', 'US10170019B2', 'US9724788B2', 'US9751149B2', 'US10307853B2', 'US9862049B2', 'US9937578B2', 'US10665128B2', 'US9724787B2', 'US11014183B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10210773B2', 'US10417934B2', 'US10204406B2', 'CN104599580B', 'US10773329B2', 'US10427239B2', 'US10438505B2', 'US10373517B2', 'US10593230B2', 'US10657839B2', 'MX2018008461A', 'CA3010814A1', 'US10839717B2', 'US20180130226A1', 'US10913125B2', 'US10997872B2', 'WO2019163977A1', 'EP3537412A1', 'US11450233B2', 'US11521512B2', 'US11288978B2', 'US11776423B2', 'US11322037B2', 'US11721231B2', 'WO2021149570A1', 'EP4036673A1', 'CN114871534B']","['US3867769A', 'US4132014A', 'US4452589A', 'DE3632829A1', 'US4931018A', 'US6647288B2', 'CA2482240A1', 'AT502283B1', 'AT504197B1', 'WO2009146359A1', 'AT507021B1', 'US9318026B2', 'US8915740B2', 'US8851896B2', 'US8747116B2', 'US8274013B2', 'US9221117B2', 'US20110006047A1', 'US9011154B2', 'CN201465333U', 'CN101986370B', 'KR101390383B1', 'US9101994B2', 'US9368045B2', 'US8992226B1']","['WO2009146359A1', 'US8851896B2', 'US9483959B2', 'US9196169B2', 'US8274013B2', 'US9011154B2', 'US9101994B2', 'US9573215B2', 'US9767712B2', 'US9583014B2', 'US9368045B2', 'US9713852B2', 'US9666100B2', 'US9672757B2', 'US9728103B2', 'US9583023B2', 'US10930174B2', 'US11090753B2', 'US10056010B2', 'US10105782B2', 'US9589481B2', 'US9757819B2', 'US10170019B2', 'US9724788B2', 'US9751149B2', 'US10307853B2', 'US9862049B2', 'US9937578B2', 'US10665128B2', 'US9724787B2', 'US11014183B2', 'US9875665B2', 'US10239147B2', 'US11247289B2', 'US10373304B2', 'US10402959B2', 'US10490098B2', 'US10210773B2', 'US10417934B2', 'US10204406B2', 'CN104599580B', 'US10773329B2', 'US10427239B2', 'US10438505B2', 'US10373517B2', 'US10593230B2', 'US10657839B2', 'MX2018008461A', 'CA3010814A1', 'US10839717B2', 'US20180130226A1', 'US10913125B2', 'US10997872B2', 'WO2019163977A1', 'EP3537412A1', 'US11450233B2', 'US11521512B2', 'US11288978B2', 'US11776423B2', 'US11322037B2', 'US11721231B2', 'WO2021149570A1', 'EP4036673A1', 'CN114871534B', 'US3867769A', 'US4132014A', 'US4452589A', 'DE3632829A1', 'US4931018A', 'US6647288B2', 'CA2482240A1', 'AT502283B1', 'AT504197B1', 'WO2009146359A1', 'AT507021B1', 'US9318026B2', 'US8915740B2', 'US8851896B2', 'US8747116B2', 'US8274013B2', 'US9221117B2', 'US20110006047A1', 'US9011154B2', 'CN201465333U', 'CN101986370B', 'KR101390383B1', 'US9101994B2', 'US9368045B2', 'US8992226B1']","['CN104599580B', 'CN114871534B']","['CN201465333U', 'CN101986370B']","['CN104599580B', 'CN114871534B', 'CN201465333U', 'CN101986370B']"
+IN2014DN07399A,Patent IN2014DN07399A ,IN,2015-04-24,Described herein is the generation of optimized H5N1 and H1N1 influenza HA polypeptides for eliciting a broadly reactive immune response to influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on H5N1 and H1N1 influenza isolates. Provided herein are optimized H5N1 and H1N1 influenza HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,A61K39/145,"Orthomyxoviridae, e.g. influenza virus",,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'US9309290B2', 'US20140286981A1', 'WO2016100926A1', 'US10220086B2', 'WO2016196846A2', 'EP3307761A4', 'WO2017053413A1', 'US10844097B2', 'IL312520A', 'EP3774884B1', 'CN112153981A', 'WO2019195284A1', 'WO2019195316A1', 'MX2021005257A']","['ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'US8030029B2', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'US9309290B2']","['AU2011302360B2', 'KR20140047069A', 'US9309290B2', 'US20140286981A1', 'WO2016100926A1', 'US10220086B2', 'WO2016196846A2', 'EP3307761A4', 'WO2017053413A1', 'US10844097B2', 'IL312520A', 'EP3774884B1', 'CN112153981A', 'WO2019195284A1', 'WO2019195316A1', 'MX2021005257A', 'ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'US8030029B2', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'US9309290B2']",['CN112153981A'],[],['CN112153981A']
+IN2013CH01043A,Patent IN2013CH01043A ,IN,2015-08-14,"ABSTRACT Disclosed herein are a system, method and architecture for media content enrichment. A visual object detector is trained using a training data set and an existing visual object detector. The newly-adapted visual object detector may be used to detect a visual object belonging to a class of visual object. The existing object detector that is used to train the adapted object detector detects a class of visual objects different from the visual object class detected by the adapted object detector. A media content item depicting a visual object detected using the adapted object detector may be associated with metadata, tag or other information about the detected visual object to enrich the media content item.",G06V10/774,"Generating sets of training patterns; Bootstrap methods, e.g. bagging or boosting",,,Jain Vidit,"['EP2976749A4', 'CA3020714A1', 'US10867328B2', 'US10552473B2', 'GB2575191A', 'CN107341485B', 'US10185628B1', 'CN108236784B', 'US10664966B2', 'CN109829481B', 'US11068718B2', 'US11295167B2', 'US11960569B2', 'CN117557503B']","['US6941323B1', 'US7440586B2', 'US7840076B2', 'GB2471036B', 'US8489627B1', 'US9639780B2', 'US20120179704A1', 'US8452763B1', 'US8744172B2', 'US9075825B2', 'US9224071B2']","['EP2976749A4', 'CA3020714A1', 'US10867328B2', 'US10552473B2', 'GB2575191A', 'CN107341485B', 'US10185628B1', 'CN108236784B', 'US10664966B2', 'CN109829481B', 'US11068718B2', 'US11295167B2', 'US11960569B2', 'CN117557503B', 'US6941323B1', 'US7440586B2', 'US7840076B2', 'GB2471036B', 'US8489627B1', 'US9639780B2', 'US20120179704A1', 'US8452763B1', 'US8744172B2', 'US9075825B2', 'US9224071B2']","['CN107341485B', 'CN108236784B', 'CN109829481B', 'CN117557503B']",[],"['CN107341485B', 'CN108236784B', 'CN109829481B', 'CN117557503B']"
+IN2014DN03302A,Patent IN2014DN03302A ,IN,2015-06-26,An absorbent article such as disposable diaper training pant and adult incontinence undergarment comprising an absorbent structure comprising superabsorbent polymer particles the article being able to absorb and contain body exudates and having improved absorption properties and therefore being able to reduce leakage especially at the first gush i.e. when the article starts to be wetted.,A61F13/15203,"Properties of the article, e.g. stiffness or absorbency",,,Bruno Johannes Ehrnsperger,"['EP3351225B1', 'US10481091B2', 'KR101750013B1', 'KR102157785B1', 'JP6803964B2', 'US11491463B2', 'KR20200123127A', 'WO2019198821A1', 'JP7174759B2', 'KR20220028022A', 'CN110567848B', 'JP7159143B2', 'EP3881814A1']","['US3860003B2', 'US3929135A', 'US4342314A', 'JPS6025045B2', 'US4324246A', 'US4463045A', 'US5006394A', 'US5149335A', 'HUT63952A', 'US5151092A', 'WO1993019715A1', 'US5342338A', 'SE9303746L', 'EP0657502A1', 'US5849816A', 'US5571096A', 'AU9102398A', 'US6121509A', 'BR9813716A', 'EP1813236B1', 'EP1547625A1', 'JP2005288265A', 'EP1843797B1', 'PL1901693T3', 'MY148533A', 'EP2046403B1', 'EP2046400B1', 'SA08290402B1', 'US10182950B2', 'EP2219781B1', 'US9044359B2', 'CN102083474B', 'US8791210B2']","['EP3351225B1', 'US10481091B2', 'KR101750013B1', 'KR102157785B1', 'JP6803964B2', 'US11491463B2', 'KR20200123127A', 'WO2019198821A1', 'JP7174759B2', 'KR20220028022A', 'CN110567848B', 'JP7159143B2', 'EP3881814A1', 'US3860003B2', 'US3929135A', 'US4342314A', 'JPS6025045B2', 'US4324246A', 'US4463045A', 'US5006394A', 'US5149335A', 'HUT63952A', 'US5151092A', 'WO1993019715A1', 'US5342338A', 'SE9303746L', 'EP0657502A1', 'US5849816A', 'US5571096A', 'AU9102398A', 'US6121509A', 'BR9813716A', 'EP1813236B1', 'EP1547625A1', 'JP2005288265A', 'EP1843797B1', 'PL1901693T3', 'MY148533A', 'EP2046403B1', 'EP2046400B1', 'SA08290402B1', 'US10182950B2', 'EP2219781B1', 'US9044359B2', 'CN102083474B', 'US8791210B2']",['CN110567848B'],"['BR9813716A', 'CN102083474B']","['CN110567848B', 'BR9813716A', 'CN102083474B']"
+IN2014DN05805A,Patent IN2014DN05805A ,IN,2015-05-15,Described herein is the generation of optimized H3N2 H2N2 and B influenza HA polypeptides for eliciting a broadly reactive immune response to influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on H3N2 H2N2 and B influenza isolates. Provided herein are optimized H3N2 H2N2 and B influenza HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2016100926A1', 'WO2016196846A2', 'EP3307761A4', 'US10485864B2', 'US10844097B2', 'IL312520A', 'WO2020014675A1', 'WO2024167855A1']","['US5662907A', 'US6239116B1', 'DK0772619T4', 'US6207646B1', 'US6429199B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'CA2816222A1', 'US8592197B2', 'CA2598884A1', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'EP2522678A1', 'US8980281B2', 'EP2450377A1', 'US8512711B2', 'MX2009013008A', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'WO2011087839A1', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A']","['AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2016100926A1', 'WO2016196846A2', 'EP3307761A4', 'US10485864B2', 'US10844097B2', 'IL312520A', 'WO2020014675A1', 'WO2024167855A1', 'US5662907A', 'US6239116B1', 'DK0772619T4', 'US6207646B1', 'US6429199B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'CA2816222A1', 'US8592197B2', 'CA2598884A1', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'EP2522678A1', 'US8980281B2', 'EP2450377A1', 'US8512711B2', 'MX2009013008A', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'WO2011087839A1', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A']",[],[],[]
+IN2014DN05695A,Patent IN2014DN05695A ,IN,2015-05-15,Described herein is the generation of optimized H5N1 influenza HA polypeptides for eliciting a broadly reactive immune response to H5N1 influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments and subsequent generation of consensus sequences based on human and avian H5N1 isolates. Provided herein are optimized H5N1 HA polypeptides and compositions fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.,C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['US20130028933A1', 'AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2015186721A1', 'WO2016100926A1', 'EP3307761A4', 'IL312520A', 'MX2021005257A', 'WO2020172365A1', 'GB202004825D0', 'CA3234653A1']","['US5662907A', 'DK0772619T4', 'US6239116B1', 'US6429199B1', 'US6207646B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'CN1298845C', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'JP2010501074A', 'US8980281B2', 'EP2450377A1', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1']","['US20130028933A1', 'AU2011302360B2', 'KR20140047069A', 'EP2814837B1', 'EP2831094B1', 'US9309290B2', 'WO2015186721A1', 'WO2016100926A1', 'EP3307761A4', 'IL312520A', 'MX2021005257A', 'WO2020172365A1', 'GB202004825D0', 'CA3234653A1', 'US5662907A', 'DK0772619T4', 'US6239116B1', 'US6429199B1', 'US6207646B1', 'US6214806B1', 'US6406705B1', 'US6339068B1', 'CA2323929C', 'US20020106798A1', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'CN1298845C', 'CA2633793A1', 'US20080045472A1', 'US8778353B2', 'JP2010501074A', 'US8980281B2', 'EP2450377A1', 'CA2615372A1', 'EP2185195A2', 'US9592285B2', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'US8298820B2', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1']",[],['CN1298845C'],['CN1298845C']
+IN2012DN02187A,Patent IN2012DN02187A ,IN,2015-08-21,"A lotion composition applied on the body facing surface of an absorbent article such as a diaper, training pant, adult incontinence product, feminine hygiene product, improves the ease of removal of feces or menses after an absorbent article comprising the lotion composition has been used and removed from the wearer. The lotion composition may also suitably be applied on a wipe. The lotion composition is advantageously readily processable, even at high speed.",A61L15/34,"Oils, fats, waxes or natural resins",,,Victor Nicholas Vega,"['EP1992367B1', 'JP6265586B2', 'JP6012380B2', 'US20150351978A1', 'EP3335683B1', 'US11135101B2', 'US11123235B2', 'WO2020247980A1', 'JP7272945B2']","['US3489148A', 'US3860003B2', 'US4808178A', 'US4909803A', 'US4695278A', 'MA21077A1', 'SG55159A1', 'US5643588A', 'US5609587A', 'US5607760A', 'ID28242A', 'TR200002601T2', 'US6515029B1', 'CO5160297A1', 'ES2251376T3', 'US6756520B1', 'US20020120241A1', 'US20020087129A1', 'US20040191279A1', 'US20050101927A1', 'DE102004021992A1', 'US20050271710A1', 'KR100865953B1', 'US7642395B2', 'US8211078B2', 'AU2006247779A1', 'WO2008139429A1', 'ATE515275T1', 'US20080287896A1', 'EP1992367B1']","['EP1992367B1', 'JP6265586B2', 'JP6012380B2', 'US20150351978A1', 'EP3335683B1', 'US11135101B2', 'US11123235B2', 'WO2020247980A1', 'JP7272945B2', 'US3489148A', 'US3860003B2', 'US4808178A', 'US4909803A', 'US4695278A', 'MA21077A1', 'SG55159A1', 'US5643588A', 'US5609587A', 'US5607760A', 'ID28242A', 'TR200002601T2', 'US6515029B1', 'CO5160297A1', 'ES2251376T3', 'US6756520B1', 'US20020120241A1', 'US20020087129A1', 'US20040191279A1', 'US20050101927A1', 'DE102004021992A1', 'US20050271710A1', 'KR100865953B1', 'US7642395B2', 'US8211078B2', 'AU2006247779A1', 'WO2008139429A1', 'ATE515275T1', 'US20080287896A1', 'EP1992367B1']",[],[],[]
+IN2013MU01253A,Patent IN2013MU01253A ,IN,2015-04-17,"Disclosed is a method and system for enabling an electronic reader embedded on e-learning system. The system comprises a Graphical User Interface (GUI) module, a receiving module, a capturing module, a generating module, a database and a communication module. The GUI module is configured to display a first content object on the electronic content reader to one or more users connected on the online e-learning platform. The receiving module is configured to receive an electronic input signal from a user to highlight a first sub-content object in the first content object. The capturing module is configured to capture first metadata associated with the first sub-content object. The generating module is configured to generate a second content object comprising the first sub-content highlighted based on the first metadata. The database is configured for storing the second content object. The communication module is configured to share the second content object to another user in real-time. To be published with Figure 2",G09B19/00,Teaching not covered by other main groups of this subclass,,,Manoj Kutty,"['US10523454B2', 'CN104732824A', 'US20150294582A1', 'US10275529B1', 'US9736311B1', 'KR101782802B1']","['US7779347B2', 'US20070298399A1', 'KR101443404B1', 'MY159361A', 'AU2010358550B2', 'US9645986B2', 'US9122666B2']","['US10523454B2', 'CN104732824A', 'US20150294582A1', 'US10275529B1', 'US9736311B1', 'KR101782802B1', 'US7779347B2', 'US20070298399A1', 'KR101443404B1', 'MY159361A', 'AU2010358550B2', 'US9645986B2', 'US9122666B2']",['CN104732824A'],[],['CN104732824A']
+IN2012DN05143A,Patent IN2012DN05143A ,IN,2015-10-23,"The present invention provides a new drug to treat malignant glioma, which is the most prevalent 1 type of primary tumor of the central nervous system (CNS). The present invention indeed shows that the isolated NFL-TBS40-63 peptide is highly specific for glioma cells, in which it triggers apoptosis. It is therefore presented here for use in a method for treating malignant glioma. The present invention further relates to the use of the NFL-TBS40-63 peptide for detecting specifically glioma cells either in vivo, or in vitro, or for addressing chemical compounds to said tumor cells.",A61P25/00,Drugs for disorders of the nervous system,,,Joel Eyer,"['FR2869909B1', 'EP2959913A1', 'JP6612063B2', 'US10550388B2', 'CN110133288A', 'JP7480132B2', 'CN112824427B', 'WO2024068999A1']",['FR2869909B1'],"['FR2869909B1', 'EP2959913A1', 'JP6612063B2', 'US10550388B2', 'CN110133288A', 'JP7480132B2', 'CN112824427B', 'WO2024068999A1', 'FR2869909B1']","['CN110133288A', 'CN112824427B']",[],"['CN110133288A', 'CN112824427B']"
+IN2013MU02202A,Patent IN2013MU02202A ,IN,2015-06-12,"A method, system and computer readable medium for redistributing routes in backbone edge bridge multi-chassis link aggregation group topologies between two routing protocols is described. The method can include learning, at a first node, a first routing table entry originating from a first side of a network and being received in a first protocol and creating, at the first node, and generating second routing entry information, in a second protocol different from the first protocol. The method can also include forwarding the second routing entry information from the first node to a second node. The second node adds the second routing entry information to a routing table when the second routing is not present in a routing table and ignores the second routing entry information when the second routing entry information is present in the routing table.",H04L45/18,Loop-free operations,,,Ramesh Deepak,"['WO2012092261A2', 'US10291521B1', 'US9729641B2', 'CN108259358B', 'WO2020164049A1', 'CN112953822A']","['US7974285B2', 'US8589573B2', 'US7646778B2', 'US7936780B1', 'CN102082782B']","['WO2012092261A2', 'US10291521B1', 'US9729641B2', 'CN108259358B', 'WO2020164049A1', 'CN112953822A', 'US7974285B2', 'US8589573B2', 'US7646778B2', 'US7936780B1', 'CN102082782B']","['CN108259358B', 'CN112953822A']",['CN102082782B'],"['CN108259358B', 'CN112953822A', 'CN102082782B']"
+IN2015DN03070A,Patent IN2015DN03070A ,IN,2015-10-02,"Described herein is the generation of optimized H1N1 influenza HA polypeptides for eliciting a broadly reactive immune response to H1N1 influenza virus isolates. The optimized HA polypeptides were developed through a series of HA protein alignments , and subsequent generation of consensus sequences , based on selected H1N1 viruses isolated from 1918- 2012. Provided herein are optimized H1N1 HA polypeptides , and compositions , fusion proteins and VLPs comprising the HA polypeptides. Further provided are codon -optimized nucleic acid sequences encoding the HA polypeptides. Methods of eliciting an immune response against influenza virus in a subject are also provided by the present disclosure.",C07K14/005,Peptides having more than 20 amino acids; Gastrins; Somatostatins; Melanotropins; Derivatives thereof from viruses,,,Ted M Ross,"['AU2011302360B2', 'KR20140047069A', 'EP2831094B1', 'US10220086B2', 'EP3307761A4', 'IL312520A']","['ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'SI2445928T1', 'US20110184160A1', 'US8298820B2', 'CN102373184A', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'EP2831094B1']","['AU2011302360B2', 'KR20140047069A', 'EP2831094B1', 'US10220086B2', 'EP3307761A4', 'IL312520A', 'ES2295175T3', 'US20050181459A1', 'US8592197B2', 'CA2598884A1', 'AU2006270065A1', 'CA2633793A1', 'US20080045472A1', 'EP2450377A1', 'EP2185195A2', 'US9592285B2', 'SG187500A1', 'US7981428B2', 'US20120034253A1', 'WO2010036948A2', 'DK2414386T3', 'SI2445928T1', 'US20110184160A1', 'US8298820B2', 'CN102373184A', 'AU2011302360B2', 'KR20140047069A', 'SG11201404653UA', 'EP2814837B1', 'EP2831094B1']",[],['CN102373184A'],['CN102373184A']
+IN2015MU01447A,Patent IN2015MU01447A ,IN,2015-04-24,"ABSTRACT The challenging problem of multiple faults detection in automobile two stroke, four stroke and 800 cc car petrol engines is solved efficiently by using a simple method. This method employs a single sensor and neuro-computing approach, which constitutes signal processing, neural networks and Support Vector Machines. From sound recording of healthy and faulty engines, significant features are extracted using signal processing resulting into a knowledge base, which is partitioned into training, CV and Testing dataset. The efficacy of the estimated neural network models are rigorously evaluated, so that the proposed technique is biased neither for specific data nor for any partitioning scheme for obtaining reasonable classification accuracy for combined multiple faults. The reliability and consistency in faults detection by the adopted technique is fully justified as the recorded signal always has inherent embedded background noise. The invention is described by way of real world example with reference to the following drawings: Figure 1: Shows the Working of Proposed Fault Detection System, in which following are the sequence of operations. 1 denotes three different types of engines are considered for Fault Detection System, out of which one Automobile Engine is selected, 2 denotes the engine status normal and different faulty conditions, 3 denotes the recording of Healthy & all Faulty Signals from the Engine, 4 denote the completion of recording, 5 denotes the normalisation and conversion into discrete samples, 6 denotes the change in gear position and speed of the engine, 7 denotes the Knowledge base Representative of Healthy & Faulty Conditions of signals, 8 denotes the Design & Development of Statistical & ANN Based Classifiers, 9 denotes the Selection of Optimal Classifier, 10 denotes the checking of the optimal classifiers, 11 denotes end, 12 denotes no, 13 denotes yes, 14 denotes no, 15 denotes yes. Figure 2: Shows the working of statistical classifiers in which, 1 denotes the knowledge base of different faults is applied to Statistical Classifiers, 2 denotes the selection of classification and regression trees for single and multiple fault conditions, 3 denotes the selection of Qualitative Output and Quantitative Inputs from an Engine’ Data Comprising of Normal and Faulty Condition, 4 denotes the selection of Measure and Tree Depth for each method, 5 denotes the performance of the classifier, 6 denotes the confusion matrix of each classifier, 7 denotes the status of the classifier, 8 denotes the comparison of classification Accuracy of all classifiers, 9 denotes selection of the optimal classifier on the basis of best performance, 10 denotes the status of selection of optimal classifies, 11 denotes the end, 12 denotes no, 13 denotes yes, 14 denotes yes, 15 denotes no. Figure 3: Shows the Working of ANN Based Classifiers in which, 1 denotes the selection of Knowledge Data Base for ANN based classifiers for Single/Multiple faults, 2 denotes the data partitioning, 3 denotes the selection of classifiers amongst ten types of classifiers. (MLP, GFF, MNN, JEN, PCA, SOFM, RBF, TLRN, RN & SVM) to classify the faults, 4 denotes the application of training datasets to ANN based classifier, 5 denotes the testing data is applied to trained ANN based classifier, 6 denotes Training of an ANN based classifier, 7 denotes the checking of training process, 8 denotes the Freezing of Connection Weights & Biases for the Trained ANN based classifier, 9 denotes the examination of Classification Accuracy for Estimated Sample, 10 denotes the status of classifiers, 11 denotes the selection of the next classifier, 12 denotes the design and development of optimal classifier, 13 denotes the evaluation of optimal classifiers, 14 denotes the Validation of ANN based classifiers, 15 denotes the end of process, 16 denotes no, 17 denotes yes, 18 denotes no, 19 denotes yes. Figure 4: Shows the proposed architecture of Fault Detection System for two stroke engine, which incorporates an automobile engine under test which is surrounded by different faults i.e. Air Filter Fault (FF), Spark Plug Fault (SP), Rich Mixture Fault (RM), Gudgeon Pin Fault (GP), Insufficient Lubricants Fault (ISL) and Piston Ring Fault (PR) and + sign indicates extension of the system for any other additional faults. The other parts of architecture are: 1. Microphone as a sensor 2. Data acquisition system 3. Signal processing system 4. Decision Making Neural Network Committee and 5. Visual Display System Figure 5 and Figure 6: Also shows the proposed architecture of Fault Detection Systems for HHPFS and MSAFS engines respectively. The working of the architectures for HHPFS and MSAFS engines are similar to two stroke engine as shown in Figure.",,,,,Vasant Dudul Sanjay,"['CN107392248A', 'CN110246481A', 'CN110271529A', 'CN112763215A', 'CN114049489A']",[],"['CN107392248A', 'CN110246481A', 'CN110271529A', 'CN112763215A', 'CN114049489A']","['CN107392248A', 'CN110246481A', 'CN110271529A', 'CN112763215A', 'CN114049489A']",[],"['CN107392248A', 'CN110246481A', 'CN110271529A', 'CN112763215A', 'CN114049489A']"
+IN2014DE00902A,Patent IN2014DE00902A ,IN,2015-10-02,"The present disclosure provides novel polynucleotide sequences for high level expression in Escherichia coli and encoding recombinant SsoPox wild-type enzyme and its variant having enhanced organophosphate (OP)-hydrolyzing activity. The invention also provides a novel method to produce the recombinant enzymes in highly pure and active form in an unprecedented high yield. The invention also provide a method to generate reusable nanobiocatalyst by covalently immobilizing pure recombinant SsoPox enzymes onto magnetic nanoparticles. The reusable nanobiocatalyst can be recovered from the reaction mixture after its use and can be stored and reused multiple times to degrade the organophosphate-compounds. The recombinant SsoPox enzymes and rSsoPox-immobilized nanobiocatalyst can be used as an economical, effective and environmental-friendly OPcompound biodegrading agent.",C12N9/16,Hydrolases (3) acting on ester bonds (3.1),,,Hariram Pande Abhay,"['CN103703128B', 'CA2986197C', 'CA2992261A1', 'CA3031802A1', 'SE1750143A1']","['FR2915489B1', 'EP2934570A1']","['CN103703128B', 'CA2986197C', 'CA2992261A1', 'CA3031802A1', 'SE1750143A1', 'FR2915489B1', 'EP2934570A1']",['CN103703128B'],[],['CN103703128B']
+IN2012DN01431A,Patent IN2012DN01431A ,IN,2015-06-05,"To provide a compact surgical training device for enabling skills of techniques to be improved efficiently and effectively before acquiring clinical experiences in surgeries with high degrees of difficulty, particularly, vascular anastomosis, the surgical training device 10 to perform simulations and practices of vascular anastomosis is provided with a first holder 110 that holds a first pseudo blood vessel BV1, a second holder 120 that holds a second pseudo blood vessel BV2 to be anastomosed to the first pseudo blood vessel BV1, and a support mount 100 that supports the first and second holders 110, 120 so as to cause the entire surgical training device 10 to stand, while enabling the first and second pseudo blood vessels BVl, BV2 to be placed in respective arbitrary positions.",G09B23/32,Anatomical models with moving parts,,,Shoichi Nakamura,"['AU2013323744B2', 'ES2767073T3', 'CN104916202A', 'CN110322767B', 'US11617585B2']","['JPS6035150A', 'US4789340A', 'US4854318A', 'US5053041A', 'US5320537A', 'GB9712987D0', 'US5947744A', 'US6193637B1', 'JP2004305696A', 'JP2009133878A', 'JP2009122130A', 'JP4326011B2', 'WO2008044274A1', 'JP3919809B1', 'WO2010106691A1', 'US20120115117A1']","['AU2013323744B2', 'ES2767073T3', 'CN104916202A', 'CN110322767B', 'US11617585B2', 'JPS6035150A', 'US4789340A', 'US4854318A', 'US5053041A', 'US5320537A', 'GB9712987D0', 'US5947744A', 'US6193637B1', 'JP2004305696A', 'JP2009133878A', 'JP2009122130A', 'JP4326011B2', 'WO2008044274A1', 'JP3919809B1', 'WO2010106691A1', 'US20120115117A1']","['CN104916202A', 'CN110322767B']",[],"['CN104916202A', 'CN110322767B']"
+IN2013CH05503A,Patent IN2013CH05503A ,IN,2015-06-12,"The present invention illustrates a social learning and exploration platform to learn about both specific and everyday concepts by exploring an organized collection of multiple flips or media, called flips. Users of the system have the ability to explore a number of categories of content, create and s to assimilate curated content across those categories, define sets of questions and explore concepts with flips. The system invites crowdsourced perspectives on any concept and expands anyone's search query through invited or crowd sourced collaboration (gain exposure to new facets of a concept through collaborative set creation). Figure 1",H04L65/403,"Arrangements for multi-party communication, e.g. for conferences",,,Kalyanaraman Raghava,"['CN106161656B', 'CN107391584B', 'CN111523036B']","['US7546549B2', 'US8806331B2', 'US8082486B1', 'US20140040712A1', 'US20140372910A1']","['CN106161656B', 'CN107391584B', 'CN111523036B', 'US7546549B2', 'US8806331B2', 'US8082486B1', 'US20140040712A1', 'US20140372910A1']","['CN106161656B', 'CN107391584B', 'CN111523036B']",[],"['CN106161656B', 'CN107391584B', 'CN111523036B']"
+IN2013MU02299A,Patent IN2013MU02299A ,IN,2015-09-25,"A method and system for enhancing interactive online learning technology. In one embodiment, the document transformation module transforms the input document in an extensible markup language (XML) format. The document parser module parses the input document transformed using an extensible style sheet language transformation (XSLT). The navigation file creation module creates a navigation order between a plurality of content in the input document parsed, wherein the navigation order is created to describe a relative path between the contents. The asset file creation module creates an asset file, wherein the asset file is created based on the relative path between the contents. The tagging module tags the contents in the input document transformed. The repository stores the input document transformed comprising: the navigation order, the asset file and the tags, in a repository and the interface enables a user to communicate with other user on the system using the stored document.",G09B5/06,Electrically-operated educational appliances with both visual and audible presentation of the material to be studied,,,Manoj Kutty,"['US20150324438A1', 'US10922476B1', 'US11853311B2']","['US20040015813A1', 'US20020010715A1', 'US20050204337A1', 'US20040153968A1', 'US20050165726A1', 'US7836063B2', 'US20050287509A1', 'BRPI1000577B1']","['US20150324438A1', 'US10922476B1', 'US11853311B2', 'US20040015813A1', 'US20020010715A1', 'US20050204337A1', 'US20040153968A1', 'US20050165726A1', 'US7836063B2', 'US20050287509A1', 'BRPI1000577B1']",[],['BRPI1000577B1'],['BRPI1000577B1']
+IN2015MU02225A,Intelligent extraction system for classification of documents in online text repositories ,IN,2015-06-19,"An intelligent extraction system (herein after called as system) for classification of extracted documents in online text repositories which includes various methods and processes are provided herein. The system has designed to accept semi-structured or unstructured documents from the domain news web pages and transformed them into a structured form. The designed system is domain independent and flexible to employ on different structures. It contributes in designed Knowledge Extraction System (KES) useful for automatically extracting and storing most important keywords (Knowledge) relevant to the specified subject/ topic which could be served as a knowledge base for identification and classification of documents during web page extraction phase. It also contributes in designed core module that works on documents in plain text form, which can be applied to the documents with different formats (i.e. doc, docx, pdf etc) that can be easily transformed into plain text form. The core model includes devised module for identification and classification of relevant and irrelevant documents in the set of collected documents and knowledge distillation to add new knowledge to the knowledge base. Thus the designed system works as an intelligent learning system that gains knowledge after every performance, and improves the accuracy of the system.",,,,,Sandeep Ramchandra Sirsat,['CN108280513A'],[],['CN108280513A'],['CN108280513A'],[],['CN108280513A']
+IN2013MU03302A,Patent IN2013MU03302A ,IN,2015-07-17,"Disclosed is a system and method for providing data required for resolving a query. A data receiving module may receive a dataset captured by a plurality of sensors. A logic manager module may create a space for storing the dataset in a window of a plurality of windows. The logic manager module may further receive the query from a user. In one aspect, the query may either be registered query or an ad-hoc query. A window manager module may determine the data based upon the query. The window manager module may further resize the window when the query is the registered query. A learning module may select a maximum size window having a maximum size amongst the plurality of windows when the query is the ad-hoc query. A data facilitating module may provide the data in order to resolve the query.",G06F16/24564,Applying rules; Deductive queries,,,Snehasis Banerjee,"['CN106909603A', 'US20240143674A1']","['BR0014954A', 'US7072973B1', 'US8332526B2', 'US9524355B2', 'US20080209048A1', 'US8180801B2', 'US8433716B2', 'US8751495B2', 'US8788484B2', 'US9275102B2', 'US9563663B2']","['CN106909603A', 'US20240143674A1', 'BR0014954A', 'US7072973B1', 'US8332526B2', 'US9524355B2', 'US20080209048A1', 'US8180801B2', 'US8433716B2', 'US8751495B2', 'US8788484B2', 'US9275102B2', 'US9563663B2']",['CN106909603A'],['BR0014954A'],"['CN106909603A', 'BR0014954A']"
+IN2014DN03172A,Patent IN2014DN03172A ,IN,2015-05-22,The invention relates to a method for learning and determining a minimum injector specific electric actuation duration for at least one injection valve of an internal combustion engine of a motor vehicle. Starting with a specified electric actuation duration which definitely does not lead to an injection the electric actuation durations are increased stepwise in each motor stopping process and/or in each motor starting process in successive stopping processes and/or in successive starting processes of the internal combustion engine up to an actuation duration with which an injection with a combustion occurs and then said actuation duration can be determined as the minimum electric actuation duration. The invention further relates to a corresponding device.,F02D41/1402,Adaptive control,,,Udo Schulz,"['DE102012210937A1', 'KR101664626B1', 'DE102015212085B4', 'DE102019004797A1', 'FR3106858B1']","['JPS60190637A', 'GB9810726D0', 'JP2000227041A', 'DE19945618B4', 'ES2232796T3', 'DE10229019A1', 'DE10254844A1', 'US6964261B2', 'DE102004006297B4', 'DE102005051701A1', 'DE102006015967A1', 'DE102007015654B4', 'JP4428405B2', 'JP4501974B2', 'US7558665B1', 'US8306723B2', 'DE102009028650B4', 'US8347862B2', 'DE102012217121B4', 'FR3013392B1']","['DE102012210937A1', 'KR101664626B1', 'DE102015212085B4', 'DE102019004797A1', 'FR3106858B1', 'JPS60190637A', 'GB9810726D0', 'JP2000227041A', 'DE19945618B4', 'ES2232796T3', 'DE10229019A1', 'DE10254844A1', 'US6964261B2', 'DE102004006297B4', 'DE102005051701A1', 'DE102006015967A1', 'DE102007015654B4', 'JP4428405B2', 'JP4501974B2', 'US7558665B1', 'US8306723B2', 'DE102009028650B4', 'US8347862B2', 'DE102012217121B4', 'FR3013392B1']",[],[],[]
+IN2015DN04195A,Patent IN2015DN04195A ,IN,2015-10-16,A method in a host arrangement for communicating with a terminal connected to an IP communication network. The arrangement comprises at least two hosts one operating as active host and the remaining at least one host operating as backup host(s). The arrangement is connected to the IP communication network by means of a switch wherein each host of the arrangement is connected to the switch by means of an individual link the active host being associated with an IP and a MAC address. The method comprises detecting (110) a link failure between the active host and the switch or a malfunction of the active host; and determining (120) a backup host to takeover. The method comprises associating (130) the IP and the MAC address of the active host to the determined backup host to take over; and triggering (140) a MAC learning process in the switch.,H04L61/103,"Mapping addresses of different types across network layers, e.g. resolution of network layer into physical layer addresses or address resolution protocol [ARP]",,,Per Wollbrand,"['EP2882169B1', 'US10362631B2', 'US11171861B2']","['JPH1011369A', 'AU7149498A', 'US6094416A', 'US6971044B2', 'US7159234B1', 'EP1763204B1', 'JP4620639B2', 'US7898941B2', 'JP4811489B2']","['EP2882169B1', 'US10362631B2', 'US11171861B2', 'JPH1011369A', 'AU7149498A', 'US6094416A', 'US6971044B2', 'US7159234B1', 'EP1763204B1', 'JP4620639B2', 'US7898941B2', 'JP4811489B2']",[],[],[]
+IN2015DN02007A,Patent IN2015DN02007A ,IN,2015-08-14,The present invention reduces the number of entries retained in a communication node in a centralized control network and reduces the load on a control device. A communication node is provided with: a first table for storing a first entry in which a match condition that includes at least a destination address is associated with the output destination of a packet compatible with the match condition; a second table for storing a second entry having a prescribed match condition; a destination learning unit for recording a group composed of a transmission source and an inbound port of an inbound packet as a match condition and an output destination respectively of the first table; and a packet processing unit for transferring a packet to the output destination determined in the first table when entries having a match condition compatible with the inbound packet are found respectively from the first and second tables. The packet processing unit broadcasts the inbound packet according to a third entry when the entry having the match condition compatible with the inbound packet is not found.,H04L45/745,Address table lookup; Address filtering,,,Masanori Takashima,"['ES2628094T3', 'JP6369532B2', 'JP6369175B2', 'US10848420B2']","['KR100559979B1', 'US20050141537A1', 'US7801125B2', 'JP4481147B2', 'US8565124B2', 'US8116312B2', 'US8098677B1', 'US8971339B2', 'JP5446040B2', 'WO2011087085A1', 'JP5651970B2', 'WO2011144495A1', 'US8391289B1', 'KR101414753B1', 'US8873398B2', 'US8804490B2', 'US9288555B2', 'US8971338B2', 'CN102594664B', 'US8705536B2', 'US9143557B2', 'US9036638B2', 'US9071529B2']","['ES2628094T3', 'JP6369532B2', 'JP6369175B2', 'US10848420B2', 'KR100559979B1', 'US20050141537A1', 'US7801125B2', 'JP4481147B2', 'US8565124B2', 'US8116312B2', 'US8098677B1', 'US8971339B2', 'JP5446040B2', 'WO2011087085A1', 'JP5651970B2', 'WO2011144495A1', 'US8391289B1', 'KR101414753B1', 'US8873398B2', 'US8804490B2', 'US9288555B2', 'US8971338B2', 'CN102594664B', 'US8705536B2', 'US9143557B2', 'US9036638B2', 'US9071529B2']",[],['CN102594664B'],['CN102594664B']
+IN2015DE02063A,Patent IN2015DE02063A ,IN,2015-07-31,"Photochemopreventives ameliorate the adverse effects of ultra violet rays on skin and has become an important tool for the fight against photoaging. The effects of photoaging include wrinkles, roughness, dryness, appearance of fine lines and lack of elasticity of skin. Epicatechins are the main antioxidant, anti-carcinogenic polyphenols present in Camellia sinensis (green tea). The aim of this study is to formulate stable creams having herbal novel vesicular systems (liposomes and ethosomes) and study their interaction with skin which was compared in terms of their effects on skin viscoelasticity and skin hydration using cutometer and corneometer respectively. All the formulations improved skin viscoelasticity and skin hydration but novel formulations showed 5-60 fold improved photochemoprevention as compared to conventional formulations. The composition and process for preparing stable green tea extract loaded ethosomal creams will be useful as the better penetration and lipid nature of ethosomes with photoprotective activity of herbs produce the desired effects.",,,,,Swarnlata Saraf,['CN110227062A'],[],['CN110227062A'],['CN110227062A'],[],['CN110227062A']
+IN2014MN00886A,Patent IN2014MN00886A ,IN,2015-04-17,A method in a base station subsystem (10) of allocating radio resources to mobile stations (20) in a wireless communication system (1) involves the base station subsystem (10) assigning a respective Temporary Block Flow (TBF) to each mobile station (20) in a cell (40) in the communication system (1) and then assigning to each TBF a Temporary Flow Identity (TFI) at least one Packet Data Channel (PDCH) and an Uplink State Flag (USF) if the TBF is an uplink TBF. The base station subsystem (10) then selects different training sequences from a plurality of available training sequences and assigns a respective different selected training sequence to two or more TBFs wherein these two or more TBFs share the same assigned Temporary Flow Identity (TFI) the same assigned Packet Data Channel (PDCH) and/or the same assigned Uplink State Flag (USF) if the TBF is an uplink TBF.,H04W76/11,Allocation or use of connection identifiers,,,Anders Holm,"['WO2015013978A1', 'US20150117372A1', 'CN104902570B', 'WO2016029337A1']","['US6870858B1', 'US7302251B2', 'US6747962B2', 'FI20002810A', 'US6928065B2', 'EP1783963B1', 'RU2420890C1', 'KR20100018085A', 'US8374133B2', 'IN2012DN01857A', 'US20110194419A1', 'WO2011099922A1', 'AU2011219705B2']","['WO2015013978A1', 'US20150117372A1', 'CN104902570B', 'WO2016029337A1', 'US6870858B1', 'US7302251B2', 'US6747962B2', 'FI20002810A', 'US6928065B2', 'EP1783963B1', 'RU2420890C1', 'KR20100018085A', 'US8374133B2', 'IN2012DN01857A', 'US20110194419A1', 'WO2011099922A1', 'AU2011219705B2']",['CN104902570B'],"['RU2420890C1', 'IN2012DN01857A']","['CN104902570B', 'RU2420890C1', 'IN2012DN01857A']"
+IN2014DN08198A,Patent IN2014DN08198A ,IN,2015-05-01,"Disclosed are four compounds of crystal form of androsta-¾5a,6p-triol (YC-6 for short) (YC-6 of A crystal form, YC-6 of B crystal form, YC-6 of C crystal form, YC-6 of D crystal form) and a method for preparing same. The four compounds of crystal form are characterized b y remarkable differences in parameters such as lattice parameters, 2Θ and intensity of X-ray powder diffraction, melting point, etc. Study on the polymorphism is significant for further researching the pharmaceutical effect, bioavailability and stability thereof.",C07J1/0007,Androstane derivatives not substituted in position 17,,,Suizhen Lin,"['CA2873004A1', 'CN109985048B', 'US11532903B2']","['US2191576A', 'US2191578A', 'ATE15206T1', 'US6046185A', 'CN101884638B', 'CN101961311B', 'CN102180928B']","['CA2873004A1', 'CN109985048B', 'US11532903B2', 'US2191576A', 'US2191578A', 'ATE15206T1', 'US6046185A', 'CN101884638B', 'CN101961311B', 'CN102180928B']",['CN109985048B'],"['CN101884638B', 'CN101961311B', 'CN102180928B']","['CN109985048B', 'CN101884638B', 'CN101961311B', 'CN102180928B']"
+IN2013CH06212A,Patent IN2013CH06212A ,IN,2015-07-03,"ABSTRACT A trust based sensor network with a geog raphic routing algorithm enables a co-operative network for making packet forwarding achieved with higher confidence of successful delivery from source to destination. It includes a technique to deliver a message to a node in a network over multiple hops by means of position information. In this system, a trust relationship between neighbouring nodes can be developed. Thus, a trust-based communication path can be set up. The source broadcasts a request to all nodes in its coverage area. The nodes that know the destination’s identity will reply to the source node with their position. The source node selects and forwards packet to the trusted node which has knowledge of the neighbours’ location, each node can select the next hop neighbour that is closer to the destination and trustworthy, thus advance towards the destination in each step enabling successful delivery of packets.",,,,,S Thejaswini,['CN117915332A'],[],['CN117915332A'],['CN117915332A'],[],['CN117915332A']
+IN2013DE03741A,Patent IN2013DE03741A ,IN,2015-06-26,"The present invention provides a process for the synthesis of 1, 2-diamines having formula (A) via ring opening reaction of N-substituted aziridine with amines in the presence of water and a catalyst.",,,,,K Chakraborti Asit,['CN114478290A'],[],['CN114478290A'],['CN114478290A'],[],['CN114478290A']
+IN2013DE00228A,"“recombinant human paraoxonase 1 enzymes, method of generation and uses thereof” ",IN,2015-06-19,"The present invention provides novel polynucleotide sequences encoding recombinant human paraoxonase 1 enzymes, having enhanced catalytic activities towards a wide range of substrates including pro-atherogenic and pro-inflammatory molecules, quorum sensors and neurotoxic organophosphorus compounds, for high level expression in Escherichia coli. The invention also provides a novel method to produce the recombinant enzymes in highly pure and active form in high yield by refolding the recombinant enzymes from the inclusion. The molecules disclosed in the present invention can be used as therapeutic agents against PON1-associated disease or conditions. The molecules can also be used as detoxifying and decontaminating agents in numerous terrorist, drug, and environmental scenarios involving military and civilian welfare.",C12Y301/08001,"Aryldialkylphosphatase (3.1.8.1), i.e. paraoxonase",,,H Pande Abhay,"['CN110387380B', 'CN113621686A', 'CN114609216B']","['WO2007105223A2', 'US8735124B2']","['CN110387380B', 'CN113621686A', 'CN114609216B', 'WO2007105223A2', 'US8735124B2']","['CN110387380B', 'CN113621686A', 'CN114609216B']",[],"['CN110387380B', 'CN113621686A', 'CN114609216B']"
+IN2015DN00753A,Patent IN2015DN00753A ,IN,2015-07-10,A sports training apparatus for enhancing a users playing technique of ball sports such as cricket. The apparatus comprises a frame with two front spaced legs and a rear spaced leg; a flexible net attached to the frame and extending across the space formed between each of the front spaced legs and the rear spaced leg to form two converging net panels wherein the net is reinforced along each edge of the net and horizontally along a vertical plane of convergence of the two net panels from a top edge to a bottom edge of the net to facilitate rebound of the ball when driven into the net; and a ball suspended on a line the line attached to the frame at a swivel configured to facilitate rotation of the line about the line attachment point.,A63B67/10,"Games with thread-suspended or swingably-mounted bodies, e.g. balls, pointed bodies shaped as birds, animals, or the like, for aiming at and hitting targets ; Games using tethered bodies, e.g. balls, not otherwise provided for",,,Peter Mitchell Robb,['GB2546112A'],"['AU4231697A', 'US7494432B2', 'US7704169B1', 'US9682300B2']","['GB2546112A', 'AU4231697A', 'US7494432B2', 'US7704169B1', 'US9682300B2']",[],[],[]
+IN2014MU00165A,Patent IN2014MU00165A ,IN,2015-08-28,The present invention relates to the synthesis of small molecules showing cytostatic/cytotoxic potential against leukemia. Study relates to a process for the preparation of N-(aryl)-3-oxo-3-phenylpropanamide derivatives and their anti leukemic activity.,,,,,M V Ramana M,['US20220041591A1'],[],['US20220041591A1'],[],[],[]
+IN2014CH01076A,Patent IN2014CH01076A ,IN,2015-04-10,This invention discloses a steering system that combines the advantages of the electric power assisted steering and the ease of using a tiller or handle bar in place of a steering wheel. It is the cost effective alternative to considerably reduce steering effort and driving skills and training required to operate a vehicle. The primary objective of this invention is to replace the steering wheel by a handle bar and operate the vehicle with the use of advanced electronically controlled electrically assisted steering systems. The major advantages of this invention are an easy steering system at a low cost with precision and safety.,,,,,Naveenchandran Dr P,['CN114578410A'],[],['CN114578410A'],['CN114578410A'],[],['CN114578410A']
+IN2014DE02669A,Patent IN2014DE02669A ,IN,2015-05-22,"The purpose of the present invention i.e. manufacture of brick from waste material of paper manufacturing industry and locally available soil. This invention will help to reduce the disposal problem, environmental effects of this waste and manufacture a new building material. The materials used for brick making in this study are lime mud, the waste of paper industry, and soil. The materials were characterized with respect to its chemical and geotechnical properties. Then the experiments were conducted on hand moulded burnt bricks of above mix in various proportions to determine the optimum mix. All the bricks were first dried in the natural condition and then putted the dry bricks in kiln for burning. After burning, all bricks are tested to determine the compressive strength.",,,,,Sarkar Dr Raju,['CN109081665A'],[],['CN109081665A'],['CN109081665A'],[],['CN109081665A']
+IN2015CH01192A,Patent IN2015CH01192A ,IN,2015-04-10,"In this work, we have taken an attempt to synthesize Zn doped NiSe using two different modes - one using the reducing agent hydrazine hydrate at 100°C with PVP as capping agent and the other using PVP only at room temperature. We have also taken an attempt to study the effect of the modes on the size, morphology and fluorescence properties. EDX analysis confirms the presence of the elements Ni, Se and Zn. SEM and XRD revealed that the particle size and shape is greatly influenced by the mode of synthesis, which in turn attributed to the effect of temperature and use of reducing agent hydrazine hydrate. Honey comb like structure of NiSe:Zn was obtained by hydrothermal process, whereas, perfect cubic and mono clinic crystals were obtained by co-precipitation process. Possible mechanism for the formation of different shape crystals is also explained. PL spectra revealed that conductivity of NiSe is enhanced by doping with zinc. There is no observable difference noticed in conductivity by adopting the different modes of synthesis.",,,,,Jafar Ahamed Dr A,['CN111266121A'],[],['CN111266121A'],['CN111266121A'],[],['CN111266121A']
+IN2015MU02055A,Patent IN2015MU02055A ,IN,2015-06-12,"ABSTRACT The invention presents the feasibility analysis study of bio briquette ash (BBA) for the development of bricks. The desired tests on the collected BBA sample i.e., sieve analysis, specific gravity, soundness test, chemical characterisation, X-Ray Diffraction, Thermo Gravimetric Differential Thermal Analyser; Scanning Electron Microscope was carried out to check the feasibility of BBA for the development of bricks. The BBA was added according to the partial replacement method (5-55%) with sand keeping cement percentage constant. A total of 6 compositions were cast with 5% weight variation. The effect of addition of BBA by % weight on brick properties was investigated. The comparative analysis indicated improved physio-mechanical and thermal properties of BBA bricks as compared to the commercially available Fly ash and Clay bricks. The developed bricks are recommended for non-load bearing walls.Following invention is described in detail with the help of Figure 1 of sheet 1 showing x-ray diffraction (XRD) pattern, Figure 2 of sheet 1 showing scanning electron microscopy (SEM) and Figure 3 of sheet 2 showing thermo-gravimetric analysis (TGA) of Bio briquette ash (BBA).",Y02E50/30,"Fuel from waste, e.g. synthetic alcohol or diesel",,,V Ralegaonkar Dr Rahul,['CN116655352A'],[],['CN116655352A'],['CN116655352A'],[],['CN116655352A']
+IN2015MU03578A,Patent IN2015MU03578A ,IN,2015-10-02,"Blackboards are used as one of the oldest teaching device in the world but with the modifications in the technology whiteboards are invented for eliminating the diseases caused by chalk powder. Now-a-days Whiteboards are used in most of the educational Institutes. Large size whiteboards give advantage of using more area for writing purpose but on the contradictory it is time consuming to nib the boards. Different methods of cleaning the boards have been developed. This led to the invention of self-cleaning whiteboards. Hence, many approaches are introduced to clean the board automatically. An attempt has been made to modify the features of automated motorized whiteboard by introducing a duster detaching mechanism. Due to this mechanism teacher can use the writings on the board as a future reference. The system consists of many small parts and mechanisms which are used efficiently for the working of the board. Some of them are: - Flexible whiteboard surface material, dusters, plastic rollers, cam and follower, four bar mechanism and motors. The working of this system is based on rotation of flexible whiteboard sheet material around the rollers. Rollers are operated by means of motors. In this way the whiteboard surface gets cleaned automatically by the dusters fixed on the backside of the board. If anyone wants to use writing for future reference then cam follower and four bar mechanism is used to detach the dusters from whiteboard. In addition to this a stand is designed to adjust the height of the board and also to make it portable. 	PARTS	SPECIFICATIONS/ DIMENSIONS 1.	DC Gear motor	Speed-lOORPM Voltage-4V to 12V Stall torque-42.5 IKg-cm Stall current-6.9Amp Gear assembly-Spur Shaft length-25 to 30mm Shaft diameter-8mm 2.	Wooden Block (Covered with sunmica sheet)	Length-80cm Height-50cm Breadth-5cm 3.	Rollers (PVC Pl astic)	Diameter-5cm Height-40cm 4.	Duster holders  (Plywood)	C Shaped Height-65cm Breadth-10cm Width-10cm Thickness-1.2cm 5.	Dusters (Sponge)		1st pa ttern	2nd pattern	3rd pattern Length Breadth	28cm  3 cm	14cm 3cm	40cm 3cm 6.	AC to DC Converter	Voltage-12V Current-3A 7.	White board surface	Length- 19 Breadth-40	2cm cm 8. Cam and followers Outer   diameter- 6 cm Inner diameter- 3 cm Type- Tangent cam 9. Springs	Mean diameter - 20 mm Coil diameter - 1 mm 10. Stand	Cross sections: 1.	2.56 cm 2.	3.175 cm 3.	3.81 cm",,,,,Bhushan Tukaram Chougule,['CN112009145A'],[],['CN112009145A'],['CN112009145A'],[],['CN112009145A']
+IN2015KO00886A,Patent IN2015KO00886A ,IN,2015-09-11,"The invention relates to a very low cost colorimeter that is conceived using color LEDs, microcontroller and artificial neural networks. LEDs of the three primary colors Red, Green and Blue are used to measure the primary components of the reflected light from a printed patch under a bright white illuminant. The LEDs are interfaced with a microcontroller (PIC18F4550) to measure the reflected: light intensity falling on each sensor LED. Depending upon the wavelengths reflected from the printed patch produced by the three LEDs, photocurrents of varying magnitude are produced. The microcontroller interface transforms this into another form of representation - the time it takes the photocurrent to discharge the internal capacitor. Various techniques to map this data from sensor readings to actual color values are considered. Then an artificial neural network is trained with the data (comprising a 256 color palette) right after the data has been normalized in the 0.0-1.0 range. Once the desired degree of accuracy has been obtained in the training of the network, the updated weights are then saved and can be used to map sensor readings to actual color values.",G01J1/46,Electric circuits using a capacitor,,,Bhattacharyya Dr Siddhartha,['CN110163801B'],['US7365854B2'],"['CN110163801B', 'US7365854B2']",['CN110163801B'],[],['CN110163801B']
+IN201911002734A,Patent IN201911002734A ,IN,2020-08-28,,,,,,S. Zode Sandeep,['WO2022231998A1'],[],['WO2022231998A1'],[],[],[]
+IN2015CH01964A,Patent IN2015CH01964A ,IN,2015-05-01,"The PI and PID controllers are the most widely accepted controllers in process industries. Simplicity, robustness, a wide range of applicability and near-optimal performance are some of the reasons that have made PI and PID controllers so popular in the academic and industry sectors. Henee, even a small percentage improvement in design of PI and PID controller could have tremendous impact worldwide. The knowledge of the system and its behavior can be used to characterise the model of the physical system. However, there will be characteristic deviations between the actual plant and the mathematical model developed for controller design. This mismatch may be due to many factors and it is the engineer's role to ensure the required performance levéis exist despite plant/model mismatches. But the conventional controllers design techniques cannot withstand the uncertainties. Most of the conventional controller design technique fails to maintain the steady state after the oceurrence of the load disturbance. The internal model control (IMC) proportional integral derivative (PID) controller tuning rules provide an excellent tracking of setpoint, but sluggish disturbance rejection, as the conventional IMC filter introduces slow process pole. Disturbance rejection is significant than set-point tracking in many industrial applications. In process control, one often encounters systems described by transfer fimetions with time delays, which become transcendental functions. The design of the controller demands the rational transfer function approximation of the time-delay term. It's been observed that a PID controller with a lead - lag filter pro vides better insight into load disturbance rejection which can be achieved with conventional IMC filter with 2/2 Padé -approximation or a 1/1 Padé approximation with a proposal for new IMC filter. Thus this work/system presents the design and development of IMC-PID controller, cascaded with lead-lag filter, with a new improved IMC filter to provide effective disturbance rejection and robust operation of the first-order process with time delay, the design is extended to first order process with no delay, first order process with right half plañe zeros and puré integrating processes with time delay. The Controller performance assessment or the control robustness assessment can be viewed in terms of performance robustness and stability robustness. The good design parameter for performance robustness can be achieved with Máximum Sensitivity (Ms) as a design parameter. The experimental study on real time processes constituting self regulating and non-self regulating systems with various time delay time constant ratios is conducted to show the effectiveness of the proposed method on various structures of the first order processes with delay and also without delay, calculating the controller parameters, maintaining similar robustness in terms of máximum sensitivity Ms.",,,,,Vuppu Gopi Krishna Rao Panyam,"['US11347190B1', 'CN116755342A']",[],"['US11347190B1', 'CN116755342A']",['CN116755342A'],[],['CN116755342A']
+IN2013DE03078A,Patent IN2013DE03078A ,IN,2015-04-24,"Permanent magnets are used for several important applications, including dc electrical motors, wind turbines, hybrid automobile, and for many other applications. Modern widely used rare-earth based permanent magnet materials, such as Sm-Co and Nd-Fe-B, are generally intermetallic alloys made from rare earth elements and transition metals such as cobalt. However, the high costs of rare earth elements make the widespread use of these permanent magnets commercially unattractive. The present work focuses on producing a new permanent magnet material, with good magnetic properties, which is free from rare-earth elements and thus cost-effective. The present invention provides a process to synthesis boron doped manganese antimonide as an alternative to rare earth based permanent magnet materials. The boron doped manganese antimonide disclosed in this invention is free from rare-earth element with good magnetic properties. The material in the present study has been synthesized employing sequential combination of high energy ball milling, arc melting under argon atmosphere and again high energy ball milling followed by annealing. The annealed boron doped manganese antimonide shows improved magnetic properties as compared to manganese antimonide.",B22F3/10,Sintering only,,,Nidhi Singh,"['US10706997B2', 'CN109346258B', 'CN115106534B']","['NL295918A', 'SU900983A1', 'US6855460B2']","['US10706997B2', 'CN109346258B', 'CN115106534B', 'NL295918A', 'SU900983A1', 'US6855460B2']","['CN109346258B', 'CN115106534B']",[],"['CN109346258B', 'CN115106534B']"
+IN2013MU02195A,Patent IN2013MU02195A ,IN,2015-06-12,"A contact center is described along with various methods and mechanisms for administering the same. Work assignment methods are disclosed that push notifications to one or more resources about available work item opportunities. The one or more resources can pull the work item from the notification groups to handle the work item. Moreover, the pushed notifications can be added to a traditional work assignment scheme to aid in the answering of work items and/or offer training to a plurality of resources.",H04M3/5232,Call distribution algorithms,,,Andrew D Flockhart,"['WO2012160773A1', 'US9401989B2', 'US9531880B2', 'US9569950B1']","['US7343406B1', 'US20080120164A1', 'US20100235218A1', 'US8964958B2', 'US20110125793A1', 'US20110125826A1', 'US8634543B2']","['WO2012160773A1', 'US9401989B2', 'US9531880B2', 'US9569950B1', 'US7343406B1', 'US20080120164A1', 'US20100235218A1', 'US8964958B2', 'US20110125793A1', 'US20110125826A1', 'US8634543B2']",[],[],[]
+IN2014DN06841A,Patent IN2014DN06841A ,IN,2015-05-22,A method for assisting individuals with managing their fuel consumption at different points throughout athletic training or competitions is provided which includes collecting information about the individual participating in the athletic event in addition to information about the event itself providing feedback to the individual based on this information monitoring the individual s energy level at the moment of sweat and using this information to tailor a fueling plan for the individual. In one aspect the individual may provide her information and access her customized fueling plan using a web based browser or a mobile device application.,G16H20/60,"ICT specially adapted for therapies or health-improving plans, e.g. for handling prescriptions, for steering therapy or for monitoring patient compliance relating to nutrition control, e.g. diets",,,Kimberly Stein,"['CN106716426B', 'US10171406B2', 'WO2018099839A1', 'US20200265747A1', 'CN107411752A']","['JPH10118052A', 'JP4955861B2', 'US6740007B2', 'FI20021031A', 'FI20012593A0', 'JP2005122628A', 'JP2005213185A', 'ZA200704501B', 'WO2009018166A1', 'US20100040695A1']","['CN106716426B', 'US10171406B2', 'WO2018099839A1', 'US20200265747A1', 'CN107411752A', 'JPH10118052A', 'JP4955861B2', 'US6740007B2', 'FI20021031A', 'FI20012593A0', 'JP2005122628A', 'JP2005213185A', 'ZA200704501B', 'WO2009018166A1', 'US20100040695A1']","['CN106716426B', 'CN107411752A']",['ZA200704501B'],"['CN106716426B', 'CN107411752A', 'ZA200704501B']"
+IN2015DE02587A,Patent IN2015DE02587A ,IN,2015-09-04,"Disclosed is a method and system for facilitating electronic learning for avoiding human errors within an organization. In one implementation the method comprises providing an access, to one or more users of an organization, to one or more electronic learning modules based on an identification credential. The method further comprises initiating the one or more electronic learning modules in a predefined sequence based upon predefined initialization criterion. Furthermore, the method comprises evaluating the one or more users based upon a final examination for the one or more initiated electronic learning modules. Subsequently, the method comprises delivering a completion certificate for each of the one or more electronic learning modules based on the evaluation.",,,,,Digant SINGH,[],[],[],[],[],[]
+IN2014MU01336A,Patent IN2014MU01336A ,IN,2015-10-16,"ABSTRACT The lack of semantics and personalization of web based e-Learning system is a most focused research area of today’s era. Social networking plays a vital role in the information sharing and knowledge distribution. Implementation of social networking concept to improve the e-learning system is very challenging aspect of today’s researcher. Social networking includes various online forums, blogs, social bookmarking, mobile and researcher’s social networking sits. The present invention relates to a system framework and methods is for providing e-learning, also referred to in the art, as computer based training, computer assisted instruction and technology supported learning, are known. Such applications and systems use content, for example, lectures textual notes, video and book chapters, which are delivered to users electronically. In order to describe the e-learning content, framework is associated with the content. Ontology based standards is one technology, which is conventionally used to define the relationships between entities on a conceptual level. Following invention is described in detail with the help of Figure 1 of sheet 1showsthe Generalize e-Learning Web Personalization Framework.",,,,,Gopal S Sakarkar Mr,[],[],[],[],[],[]
+IN2015KO00749A,Patent IN2015KO00749A ,IN,2015-08-07,"The present invention relates to a smart interactive teaching aid having customized teaching information useful for improved learning capability. More specifically, the device helps the student in real-time scenarios by review, practice exams, educational games and other related activities that will automatically be recorded in the device for further preview. Further, the invention provides more interactive learning rather than routine knowledge dissemination using a smart & advanced interactive learning device.",,,,,Pani Dr Prajna,[],[],[],[],[],[]
+IN2013DE00989A,Patent IN2013DE00989A ,IN,2015-07-10,"The invention pertains to an IT-based system for facilitating knowledge enhancement of students by creating a pervasive learning environment through in-campus and off-campus interventions. High quality content inputs are provided through automated web-based mashup tools and human domain experts to a cloud-based knowledge management system, which distributes domain-specific content streams to designated knowledge servers catering to a particular institution. The content streams are specific to an institution and subscribed to by an institution based on the academic programmes it offers. These content streams are then distributed locally within the campus to electronic display boards which are connected wirelessly to the knowledge server. The content stream is visible to the student pervasively throughout the campus promoting sub-conscious learning and enhancement in knowledge without active participation. Content streams are also posted in a personalized manner to the various social networking platforms used by the target audience so that knowledge can be delivered pervasively beyond the classrooms.",,,,,Ankur Gupta,[],[],[],[],[],[]
+IN2014DE00924A,Patent IN2014DE00924A ,IN,2015-10-02,"A method and a multi-switch architecture include learning a media access control (MAC) address at a first switch in a multi-switch architecture; storing the MAC address in a forwarding database of the first switch; transmitting a data frame to one or more switches in the multi-switch architecture via inter-switch connectivity between the first switch and the one or more switches, wherein the data frame is created to enable the one or more switches to learn the MAC address therefrom; learning the MAC address from the data frame at the one or more switches; and storing the MAC address in a forwarding database for each of the one or more switches. This further includes transmitting the data frame via ports and queues in the inter-switch connectivity that are separate from ports and queues in a data path between the first switch and the one or more switches to avoid data path interference.",,,,,Vineet Gautam,[],[],[],[],[],[]
+IN2013CH05106A,Patent IN2013CH05106A ,IN,2015-06-19,"The present invention provides advanced vocational skill training and assessment comprises a progressive training assistance device and system for providing virtual environment, tactile feedback and performance evaluation to the unskilled user during training. The progressive training assistance device and system comprising: a training device, a haptic sensor, a control system and a virtual training environment. The training device includes atleast one active translational and atleast three passive rotational degrees of freedom for performing tasks. The haptic sensor is used for sensing and affording feedback. The control system is used for calculating a force applied by an unskilled user. The virtual training environment displays the performance of an unskilled user. Further, the progressive training assistance device and system compares the performance of an unskilled user with a standard benchmark and provides feedback to an unskilled user.",,,,,Bhavani Rao R,[],[],[],[],[],[]
+IN2013MU03984A,Patent IN2013MU03984A ,IN,2015-07-31,"'FABRICATION OF BIODEGRADABLE VAGINAL RING FOR COMBINED CONTRACEPTIVE THERAPY OF ETHINYL ESTRADIOL AND LEVONORGESTREL' The aim of the present investigation was to fabricate and evaluate biodegradable vaginal ring for contraceptive therapy of ethinyl estradiol (EE) and levonorgesrel (LNG). Biodegradable intravaginal rings for contraceptive drug delivery present the potential of an easily adhered to women controlled and environment friendly method for contraception and hormone replacement. Fourier transform infrared spectroscopy (FTIR) had employed to study drug-drug and drugs-excipients incompatibility. Analytical method was developed by UV spectrophotometer using Q-Absorbance method. Vaginal ring of EE and LNG was successfully prepared with EE, LNG, polyurethane and polyethylene glycol by injection molding method and evaluated for tensile strength, percent elongation, percent compression, drug content, in-vitro drug release study, sterility testing and stability study. Optimization of process parameter was done by 3 factorial design using Design Expert software. Drug and excipients were found to be compatible to each other which were confirmed by FTIR study. Differential Scanning Calorimetry (DSC) study indicated that both drugs were found to be stable at 120 °C. Tensile strength, percent elongation and percent compression were found to be show good mechanical property of vaginal ring. In-vitro drug release of EE and LNG were found to be good for optimized batch up to 21 days. Sterility test suggested that the developed vaginal ring shows no microbial growth. Stability study shows vaginal ring containing EE and LNG were stable at accelerated condition. The present study demonstrated that, a vaginal ring is suitable for contraception and hold great potential for hormone replacement therapy. Keywords: Ethinyl Estradiol; Levonorgestrel; Contraception; Vaginal Ring; Controlled Release; 3 Factorial Design; Injection Molding.",,,,,Hareshkumar Patel Dr Deepa,[],[],[],[],[],[]
+IN2014DE00954A,Patent IN2014DE00954A ,IN,2015-06-05,"The present subject matter relates to a method for post adaption of an at least partially data-based functional model, which corresponds to a sum of a particular data-based base function model and an additive error model, comprising the following steps: -	providing (S1) the base function model; -	detecting (S2) training data; -	determining (S4) the additive error model based on differential training data, which represents the differences between the measured values of the training data and the function values of the base function model at the measurement points of the training data; -	modifying (S3, S7) the training data and/or the additive error model, so that function values of the function model remains within a given adaptation range (A).",G06N5/022,Knowledge engineering; Knowledge acquisition,,,Tobias Lang,[],"['DE102008001081B4', 'US20120083933A1']","['DE102008001081B4', 'US20120083933A1']",[],[],[]
+IN2015CH04082A,Patent IN2015CH04082A ,IN,2015-09-25,"Learning is a two step process. So, as much as theoretical knowledge is important, knowledge about the practical implementation is also emphasized upon. And a very good example of this can be seen in the curriculum of the bachelor's degree program of our education system. Every student has to do at least one project either from their respective institutions or in collaboration with some external organization. Also, every student is assigned an internal project guide who supervises the project. A project is not a one man job. So, every project consists of at least two members, supervised by the same internal guide. Now, if these students do their project from an external organization, then balancing between the institution and the organization becomes hectic. This is where Project Feedback Management System comes into play. We have devised an automated web based application to facilitate the communication and feedback about the project between the students, and their respective internal guides. Our system has different functionalities which facilitates the interaction between the students and their internal guides. It provides different functionalities based on the type of user logged in. If the logged user is an internal guide, functionalities such as logging of a feedback, reviewing of a particular task, etc. At the same time if the logged user is a student, the functionalities are restricted to just viewing the task and clarifying their doubts.",,,,,Kumar Abhineet,[],[],[],[],[],[]
+IN2015MU01661A,Patent IN2015MU01661A ,IN,2015-05-08,RAWANDALE'S VIRTUAL FLUOROSCOPY SYSTEM (VFS) FOR PCNL SIMULATION The Rawandale's Virtual fluoroscopy System (VFS) for PCNL Simulation is useful for training the learner to target the kidney during PCNL and thus decreasing the learning curve of initial puncture. Procedure for using the Rawandale's Virtual fluoroscopy System (VFS) for PCNL Simulation 1.	The surgeon stands in front of the Rawandale's Virtual fluoroscopy System (VFS) for PCNL Simulation - Fig 1 2.	The optical 'C' arm is positioned vertically. 3.	The surgeon holds the initial puncture needle in a stance to puncture the transparent screen. 4.	The foot switch is pressed to visualise the kidney replica against the screen. The shadow is captured by the camera and shown on the monitor. 5.	The surgeon uses the routine surgical technique to aim at the kidney shadow seen on the monitor. 6.	The surgeon can practice the same technique repeatedly till he is confident.,,,,,Patil Ashish Vishwas Dr Rawandale,[],[],[],[],[],[]
+IN2012DE00273A,Patent IN2012DE00273A ,IN,2015-07-10,"The invention relates to a system and device for X-ray image security interpretation training. In particular, the invention relates to a system and method for the x-ray image interpretation training for screener training. It will be appreciated that the system and method of the present invention will be applied to a variety of application and training other than X-ray image interpretation.",,,,,Kalambur Gopalan Ramani,[],[],[],[],[],[]
+IN2015CH03743A,Patent IN2015CH03743A ,IN,2015-07-31,"This invention relates to the field of Information and Communication Technology. Aprocess and method where the status of each class like lecturer name, room number, topic covered, time when attendance taken, students absent etc be made available @ real-time (period wise) to all the stakeholders in the education space (viz, Principal, Staff, Students and Parents) either on their mobile phones or web or on any display screen. We call this as a 'Real-Time Campus Dashboard'. Our goal is to leverage mobile technology to bring in the much needed transparency and accountability in the education space to improve the quality of life.",,,,,S Talya Vidyadhara,[],[],[],[],[],[]
+IN2015CH04595A,Patent IN2015CH04595A ,IN,2015-09-11,"The present invention provides a method and system for providing a platform for assisting sales professionals and channel owners in choosing the best products to present, sell to their customers, based on various internal, external parameters. The method includes calculation of how a certain product applies to a certain customer scenario, how much a customer is likely to buy a certain product, how well the product is likely to perform during sales, how well the product is likely to perform in a sales channel and other factors related to this. The organization can adjust these parameters and their weightages based on their business need and the system automatically promotes the right products, learning on its own based on the feedback from users. The system also allows the auditing of recommendations, while hiding the private details from the individual users. This helps in bringing shorter sales cycles and the efforts of the sales professionals and channel owners being spent in the right direction, improving profitability and revenue.",,,,,Naga Subramanian Chokkanathan,[],[],[],[],[],[]
+IN2015KO00305A,Patent IN2015KO00305A ,IN,2015-04-17,"Method of Mining to prevent fire occurrence in opencast mines working over underground coal pillars modeled for better control of fiery situations by its detection, prevention and prediction, comprising: a)Identification of critical mining parameters responsible for fire occurrences such as area of coal face exposure, rate of coal face advance, b)Finding the role of coal intrinsic susceptibility towards fire (represented by crossing point temperature) to be secondary in nature towards occurrence of fire and using critical mining parameters like apparent area and additional area where the component of additional area is far more in magnitude and significance than the apparent area towards occurrence of fire, Formulation and measurements of the identified mining parameters, c)Statistical validation of the measurements (using ANOVA, and Confidence Interval (CI) Analysis), d)Capturing the non-obvious hidden factors within the attributes causing fire and validated by machine learning LMT classifier, e)ApplyinglO fold cross validation method for its further validation to show consistency in performance, f)Prevention and controlling occurrence of fire by proper tuning of the identified mining parameters.",,,,,Kumar Sinha Satish,[],[],[],[],[],[]
+IN2014MU00081A,Patent IN2014MU00081A ,IN,2015-08-21,The present disclosure provides a comprehensive knowledge of developing a Wireless Sensor Network (WSN) platform and implementing the same for precision agriculture in a more cost effective and reliable manner. The WSN platform comprising at least two sensor-nodes cooperating with at least a base-station for learning the positioning of the sensor-nodes in an agricultural field or land and further instructing as well as managing functioning of the sensor-nodes in real time. The updates received at the base-station from the sensor-nodes are processed in real time and message strings are generated. These message strings are further transmitted to at least one user device and at least one server where the message strings are processed to generate analytical data-patterns.,Y02A40/10,"Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture",,,Pande Milind Sudhakar Mr,[],[],[],[],[],[]
+IN2013MU03540A,Patent IN2013MU03540A ,IN,2015-09-25,"Corrosive resistant nickel-cobalt (Ni-Co) layers were produced by electrodeposition method at constant current density of 15 mA cm' at room temperature with the addition of saccharin as an additive agent. These films were characterized by various methods such as X-ray diffraction (XRD), Scanning Electron Microscopy (SEM) and Electrochemical Impedance Study (EIS). The XRD study confirmed the formation of nickel-cobalt (Ni-Co) alloy with plane orientation along (111) plane with composition Ni:Co as 80:20 and 85:15 at.%. The SEM revealed that the substrate surface covered with colony of nanograms resulting in compact morphology. The EIS study indicated the improvement in the corrosion resistance of nickel-cobalt (Ni-Co) from 240 to 500 Ω cm2 .",,,,,Abhishek Chandrakant Lokhande Mr,[],[],[],[],[],[]
+IN2014MU00036A,Patent IN2014MU00036A ,IN,2015-08-21,"Corrosive resistant improved nickel-zinc alloy (Ni-Zn) coatings were produced by electrodeposition method at constant current density of 15 mA cm-2 at room temperature with the saccharin as an additive agent. These films were characterized by various methods such as X-ray diffraction (XRD), Scanning Electron Microscopy (SEM), Atomic Absorption Spectrophotometer (AAS) and Electrochemical Impedance Study (EIS). The XRD study confirmed the formation of nickel-zinc (Ni-Zn) alloy with plane orientation along (101) plane with composition confirmed from Atomic Absorption Spectrophotometer (AAS) of Ni:Zn between 72:28 to 75:25 at.%. The SEM revealed that the substrate surface covered with nanograins resulting in compact morphology. The EIS study indicated the improvement in the corrosion resistance of nickel-cobalt (Ni-Zn) from 640 to 874 Ω cm2.",,,,,Abhishek Chandrakant Lokhande Mr,[],[],[],[],[],[]
+IN2014DE00920A,Patent IN2014DE00920A ,IN,2015-10-02,"The present invention refers to a training simulator for endoscopy of the airway. The invention particularly refers to a cost-effective, portable training model for bronchoscopy made up of tubes and connectors, which has the provision(s) for obtaining different complexity level for providing training to a trainee. The simulator resembles the trachea-bronchial tree structure with the tubes acting as air pathways and connectors denoting branching.",,,,,Anil Kumar Verma,[],[],[],[],[],[]
+IN151496B,Patent IN151496B ,IN,1983-05-07,,,,,,Chamanlal Jagannath Shishoo,"['US9938300B2', 'US10351571B2', 'US10377767B2', 'US10377760B2', 'US10508098B2']",[],"['US9938300B2', 'US10351571B2', 'US10377767B2', 'US10377760B2', 'US10508098B2']",[],[],[]
+IN2014CH00017A,Patent IN2014CH00017A ,IN,2015-07-10,"Abstract According to another aspect of the present disclosure, DBaaS may be effectively utilized achieving multi-tenancy, elastic scalability and access control. According to an aspect of the present disclosure, a large block of data may be retrieved from the client side, utilizing the Information retrieval algorithm. According to another aspect of the present disclosure, fit for purpose approach is demonstrated by providing an Education Solution that takes inputs from local educational institutions and utilizes the global best practices adopted by leading international universities.",,,,,Taj Nousheen,[],[],[],[],[],[]
+IN2012DN00884A,Patent IN2012DN00884A ,IN,2015-07-10,"The invention relates to a simulator. The simulator includes a method and apparatus for determining the coordinates of an object in two dimensions. A camera and infrared camera are provided, for capturing images of the controller. The infrared image is processed using an active contour model to produce a training image from an image from the camera. An adaptive correlation filter is constructed from the training image, which is correlated with images from the camera to measure the position of the controller. (Figure 1 to accompany abstract.)",G06T7/11,Region-based segmentation,,,Jan Telensky,[],"['US5267329A', 'US5870486A', 'US6529614B1', 'US6757422B1', 'US6546117B1', 'US6785402B2', 'US7399969B2', 'US7483569B2', 'GB0404269D0', 'KR100657915B1', 'US7693331B2', 'JP2008271024A', 'CN101383004A']","['US5267329A', 'US5870486A', 'US6529614B1', 'US6757422B1', 'US6546117B1', 'US6785402B2', 'US7399969B2', 'US7483569B2', 'GB0404269D0', 'KR100657915B1', 'US7693331B2', 'JP2008271024A', 'CN101383004A']",[],['CN101383004A'],['CN101383004A']
+IN2015CH04779A,Patent IN2015CH04779A ,IN,2015-09-25,"An attempt was made to study the pharmacological property and phytochemical constituents of Syzygium mundagam. From the in vitro antioxidant and antidiabetic study in animal models it was concluded that the bark extract of the plant could be the best candidate for the isolation of compounds for the said activity. Hence five new compounds were isolated for the first time from the plant with the help of TLC and column chromatography. Various solvent combinations of toluene, chloroform, ethyl acetate, methanol, acetone, acetic acid used for the isolations are developed for the first time for these isolations. Compound 1 (l,5b,7,7,13 - pentamethylicosahydro - lH-cyclopenta[a]chrysene-3a,9 - dicarboxylic acid), compound 2 (ll^l-dimethoxy-^^ea^b^^-pentamethyl^-oxo^^^^a^^a^b,	7,8,8a, 9,10,11,12,12a, 14,14a, 14b-octadecahydro-lH-phenanthro [1,2-c] chromene-8a-carboxamide), compound 3 (2-(4-hydroxy-5,5-dimethoxy-2,3,3-trimethylcyclohexyl)-3-methyl-4-oxochroman-5,7-dicarboxylic acid), compound 4 (l,7,7,13-tetramethoxy-5b-methylicosahydro-lH-cyclopenta[a]chrysene-3a,9-dicarboxylic acid) and compound 5 [(2Z,6Z,10E,14E,18E,22E) -2,23-dimethoxy - 6,10,15,19 - tetramethyltetracosa-2,6,10, 14,18,22-hexaene] could be taken as the novel source of phytocompounds for the development of drug against diabetes.",,,,,Chandran Rahul,[],[],[],[],[],[]
+IN2015DE02250A,Patent IN2015DE02250A ,IN,2015-08-21,"A high resolution 10-DOF hand tremor study device is designed to study the high resolution accurate data gathered from the sensors (5, 6, 7, 8). An electronic circuit is designed with combinational logic of digital filter's (9), PC communication and sensors (2 and 10): It's is designed with the purpose to analyze various characteristics in ten degree of freedom (10- DOF) of hand tremor data. The device will gather the data and communicate with PC software to enable us to do research on that data. The device is to be hold in.hand then push the ON button and do any type of hand motion. After it again press the ON button to stop : and send data to PC through (15) USB port. The device can be powered through rechargeable batteries or through (1.4) port. The sensors include an accelerometer (8), Gyroscope (7), Magnetometer (6) and piezoelectric sensor (5).",,,,,Rana Rohit,[],[],[],[],[],[]
+IN2015DE02442A,Patent IN2015DE02442A ,IN,2015-08-21,The present invention is a viable alternative and cost effective solution to analyse the training of athlete or any racing vehicle at different checkpoints over the track and is also a solution to bulky devices used for training athletes and may replace the burden of trainee to carry the bulky and costly device in future.,,,,,Ikram Prof Hussain,[],[],[],[],[],[]
+IN2009KO01339A,Patent IN2009KO01339A ,IN,2015-07-24,"Effects of ageing time on area reduction of hot rolled high carbon steel wire rods were studied. Tensile testing and X-ray study of as rolled wire rods were carried out. Gleeble simulation and hydrogen content determination were also conducted. The results show that the reduction of area increases with ageing time at room temperature and the UTS remain unchanged which are contrary to normal ageing or strain ageing. In normal ageing, the ductility drops and the yield strength increases. In this study, the gleeble simulation and x-ray data support that the transformation from pearlite to austenite is normal and there is no evidence of retained austenite or martensitic transformation in the steel. The hydrogen content drops as the time passes. The drop is rapid in first few days and this drop increases the ductility in rolled high carbon wire rod. Hydrogen reduces the cohesive strength and the pressure generated due to transformation of atomic hydrogen to molecular state combines with tensile stress and causes cleavage or mixed type of fracture.",,,,,roy D,[],[],[],[],[],[]
+IN2015CH03667A,Patent IN2015CH03667A ,IN,2015-07-31,"New generation farm system is the most modern technology. This technology is used for saving water increasing efficiency and reducing environmental impacts, more production agris..etc This is an electronics network system automatic apply irrigation water in nursery and greenhouse operations, and monitor green roofs for storm water mitigation . The system ability to precisely monitor and control applications of water, nutrients to plants, production settings, based upon daily plant requirements, to provide the nursery and greenhouse industries with cost-effective equipment and strategies that can be used to reduce the volume and cost of inputs, increase profitability. This technology will help us learn to best implement this new technology to minimize cost and maximize efficiency. Microcontroller compares the GPS readings and stored readings. When both the readings match, the microcontroller switches the control to the GSM module. This GSM module sends SMS alerts to the passengers, whose mobile numbers are already stored in the microcontroller. For example consider three points A, B, C along a path whose latitude and longitude positions are already stored in the microcontroller. When the vehicle starts, GPS module sends the longitude and latitude position details of the vehicle to the microcontroller. Microchip's PIC micro 8bit MCU's offer a price/performance ratio that allows them to be considered for any traditional 8 bit MCU application as well as some traditional 4 bit application, dedicated logic replacement and low end DSP applications. These features and price performance mix make PIC micro MCU's an attractive solution for most applications. The combination of the amplifier (often called an error amplifier) and the serious pass transistors together with the resistive voltage divider to tap off a portion of the output voltage constitutes a feed back amplifier. The closed loop amplifier configuration acts to maintain the traction of the output voltage feedback to the amplifier inverting input terminal equal to the reference voltage that is supplied to the non-inverting input terminal. Here we employ PIC16F877A Microcontroller which receives data via a RS 232 converter and sends the information through the transmission logic unit. The system ability to precisely monitor and control applications of water, nutrients to plants, production settings, based upon daily plant requirements. to provide the nursery and greenhouse industries with cost-effective equipment and strategies that can be used to reduce the volume and cost of inputs, increase profitability. This technology will help us learn to best implement this new technology to minimize cost and maximize efficiency. Microcontroller compares the GPS readings and stored readings. When both the readings match,",,,,,G Gireeshan Dr M,[],[],[],[],[],[]
+IN2013MU02437A,Patent IN2013MU02437A ,IN,2015-06-19,"Abstract: Disclosed herein is a cost-effective, environmentally benign, one pot catalytic process for synthesis of a, ß-unsaturated carboxylic acids (2) and esters (2') with high E-stereoselectivity from derivatives of cyclic 1, 3-diesters (Meldrum’s esters) (1) using a highly efficient catalytic protocols containing FeCl3.6H2O (cat.), H2O (1 equiv.) and FeCl3.6H2O (cat.), alcohol (R2-OH, 1 equiv.) in CH3NO2 respectively under microwave irradiation as well as under conventional heating conditions with better turnover number (TON) and turnover frequency (TOF) values.",,,,,Ramakrishna Gopalkrishna Bhat,[],[],[],[],[],[]
+IN2015MU03765A,Patent IN2015MU03765A ,IN,2015-10-16,"This invention relates generally to surgical tools and more particularly to such tools and methods used in lateral Osteotomy of the nasal bone. The designing process was initiated by studding the basic anatomy of the nose. Lever 1 mechanism was studied to design the forceps. It is experimentally calculated that gripping force is 250N-450N. The length of forceps was designed such as to transfer sufficient force to break the bone. Considering the above dimension and tolerance space available inside the nose the designing was completed. A Rapid Prototype model of the designed model was generated so that the surgeon could examine the forceps closely and suggest for modification. The fabrication process was initiated after this. The fabricated forceps was given to the surgeon for inspection. After getting confirmation from the surgeon, cadaveric study was conducted. The cadaveric study and its observations are discussed in detail. Following invention is described in detail with the help of Figure 1 of sheet 1 showing the assembled view of nasal bone cutting forceps.",,,,,Uddanwadikar Rashmi,[],[],[],[],[],[]
+IN163001B,Patent IN163001B ,IN,1988-07-30,,,,,,Mohan Rao Yelakanti,[],[],[],[],[],[]
+IN186318B,Patent IN186318B ,IN,2001-08-04,,,,,,Sivakumar Rajagopal,[],[],[],[],[],[]
+IN153334B,Patent IN153334B ,IN,1984-06-30,,,,,,Ratna Ved,[],[],[],[],[],[]
+IN150657B,Patent IN150657B ,IN,1982-11-20,,F41J7/00,Movable targets which are stationary when fired at,,,Lindsay Charles Knight,[],"['CA706293A', 'DE933508C', 'DE1243712B', 'US3128096A', 'DE1430978A1', 'US3865373A', 'US3881427A']","['CA706293A', 'DE933508C', 'DE1243712B', 'US3128096A', 'DE1430978A1', 'US3865373A', 'US3881427A']",[],[],[]
+IN151427B,Patent IN151427B ,IN,1983-04-16,,F41G3/26,Teaching or practice apparatus for gun-aiming or gun-laying,,,L Knigt,"['DE2943766A1', 'AU530979B2', 'AU5439880A', 'DE3000360A1', 'EP0019428B1', 'EP0072004A3', 'GB2123125B', 'US4505481A', 'JPS59225374A', 'US4598363A', 'JPS60249075A', 'FR2570834B1', 'SE459210B', 'DE3528075A1', 'DE3603540A1', 'DE3612352A1', 'JP2628062B2', 'DE3914179A1', 'DE59010738D1', 'US5092607A', 'US5095433A', 'US5194006A', 'US5454265A', 'US5241518A', 'TW214006B', 'US5455868A', 'FR2726639B1', 'US5559388A', 'FI96545C', 'AUPN727995A0', 'US5917775A', 'US5823779A', 'US5816953A', 'IL118846A', 'US6109614A', 'US5716216A', 'US5944317A', 'EP1058083A1', 'US6367800B1', 'US6563763B2', 'US6617563B1', 'ES2189685B1', 'US7369101B2', 'CN100416336C', 'US20070160960A1', 'US8360776B2', 'US9366503B2', 'US20090300927A1', 'GB0813014D0', 'JP5713381B2', 'US9200870B1', 'AU2011250746A1', 'KR101200350B1', 'US9759530B2', 'US10458758B2', 'US9429397B1', 'GB2573305A', 'IL295152A']","['US2477246A', 'NL71368C', 'US2916289A', 'US2925582A', 'US2972068A', 'US3233213A', 'US3287692A', 'US3387604A', 'US3501654A', 'US3489413A', 'US3517226A', 'US3627323A', 'US3678495A', 'US3778059A', 'US3659085A', 'US3707699A', 'US3723960A', 'US3710151A', 'GB1343694A', 'US3881096A', 'JPS5224886B2', 'JPS4939693A', 'GB1371173A', 'US3857022A', 'CH591066A5', 'US3968459A', 'US3985024A', 'CH589835A5', 'US3979565A', 'US3990035A', 'GB1531224A', 'GB1553251A', 'CH609767A5']","['DE2943766A1', 'AU530979B2', 'AU5439880A', 'DE3000360A1', 'EP0019428B1', 'EP0072004A3', 'GB2123125B', 'US4505481A', 'JPS59225374A', 'US4598363A', 'JPS60249075A', 'FR2570834B1', 'SE459210B', 'DE3528075A1', 'DE3603540A1', 'DE3612352A1', 'JP2628062B2', 'DE3914179A1', 'DE59010738D1', 'US5092607A', 'US5095433A', 'US5194006A', 'US5454265A', 'US5241518A', 'TW214006B', 'US5455868A', 'FR2726639B1', 'US5559388A', 'FI96545C', 'AUPN727995A0', 'US5917775A', 'US5823779A', 'US5816953A', 'IL118846A', 'US6109614A', 'US5716216A', 'US5944317A', 'EP1058083A1', 'US6367800B1', 'US6563763B2', 'US6617563B1', 'ES2189685B1', 'US7369101B2', 'CN100416336C', 'US20070160960A1', 'US8360776B2', 'US9366503B2', 'US20090300927A1', 'GB0813014D0', 'JP5713381B2', 'US9200870B1', 'AU2011250746A1', 'KR101200350B1', 'US9759530B2', 'US10458758B2', 'US9429397B1', 'GB2573305A', 'IL295152A', 'US2477246A', 'NL71368C', 'US2916289A', 'US2925582A', 'US2972068A', 'US3233213A', 'US3287692A', 'US3387604A', 'US3501654A', 'US3489413A', 'US3517226A', 'US3627323A', 'US3678495A', 'US3778059A', 'US3659085A', 'US3707699A', 'US3723960A', 'US3710151A', 'GB1343694A', 'US3881096A', 'JPS5224886B2', 'JPS4939693A', 'GB1371173A', 'US3857022A', 'CH591066A5', 'US3968459A', 'US3985024A', 'CH589835A5', 'US3979565A', 'US3990035A', 'GB1531224A', 'GB1553251A', 'CH609767A5']",['CN100416336C'],[],['CN100416336C']
+IN153257B,Patent IN153257B ,IN,1984-06-23,,,,,,Ved Ratna,[],[],[],[],[],[]
+IN2012DE00731A,Patent IN2012DE00731A ,IN,2015-08-21,The present invention envisages the development of Curcumin-Drug conjugates with an aim of improving the bioavailability of Curcumin with simultaneous synergistic activity and possible decrease in dose and the toxicity of conjugating drug.,,,,,Kumar Jain Sandeep,[],[],[],[],[],[]
+IN2012DE02071A,Patent IN2012DE02071A ,IN,2015-08-14,"The present invention provides a widely applicable, efficient and green chemical process for the synthesis of ß-hydroxy aryl ethers by the reaction of phenol with epoxide in the presence of metal nanoparticles as catalysts. The process of the present invention, which involves metal nanoparticle catalysed epoxide ring opening by phenols can be extended to a broad range of drugs with varied applications like treatment of cold and cough, as muscle relaxants, as cardiovascular drugs.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2012DE00955A,Patent IN2012DE00955A ,IN,2015-09-11,The present invention provides ß-carboline compounds. The present invention also provides of method of preparing ß-carboline compound of formula and their use as potent anti-leishmanial agent. A series of ß-carboline-compounds were synthesized and tested in vitro against promastigotes of Leishmania donovani. The synthesized compounds show promising anti-leishmanial activity,,,,,Gohil Vikrantsingh,[],[],[],[],[],[]
+IN2013DE00226A,Patent IN2013DE00226A ,IN,2015-06-19,The present invention relates to the field of chemical science and specifically this invention provides the eco-friendly approach for the synthesis of tetrahydropyridines (THPs) via multi component approach. The catalytic application of sodium dioctyl sulfosuccinate (SDOSS) in an aqueous media has been demonstrated by exploring efficient and green approach for acquiring functionalized piperidine under environment friendly milder reaction condition.,,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013DE00378A,Patent IN2013DE00378A ,IN,2015-06-19,"The present invention provides a method for the generation of novel random gene libraries sequences in the size range of 200-30,000 base pairs without a DNA template, using a novel 25-base single stranded oligonucleotide. The sizes obtained in the present invention are 10-100 folds higher than those described in prior art.",,,,,Mohan Utpal,[],[],[],[],[],[]
+IN2013DE00680A,Patent IN2013DE00680A ,IN,2015-06-26,"The present invention provides a nanoformulation comprising folic acid functionalized liquid crystalline nanoparticles for delivery of anti-cancer agents and a process for preparing the same. The LCNPs were prepared by hydrotrope method with suitable co-solvent and a biphasic drug release pattern was observed from developed formulation. The developed nanoformulation resulted in increased antitumor efficacy, longer circulation half-life and higher safety profile for Docetaxel, a model anti-cancer agent.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013DE00762A,Patent IN2013DE00762A ,IN,2015-06-26,"The present invention relates to an oral self-emulsifying formulation comprising CyA and Vitamin E TPGS as an antioxidant. The present invention formulation provides enhance oral bioavailability and reduced nephrotoxicity induced by CyA. The formulation provides 4.46 times oral bioavailability compared with free CyA and 1.46 times compared to marketed CyA formulation (Bioral®). The present formulation is easy to prepare, cheap, stable at accelerated stability and freeze thaw conditions. Also, the formulation provides high level of manufacturing scalability and industrial adaptability.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013MU00922A,Patent IN2013MU00922A ,IN,2015-06-05,Disclosed herein is a product composed of natural essential oils or aroma chemicals and polymers useful for reducing the malodour of garbage and to simultaneously degrades the waste. The product of the invention masks the malodour and simultaneously degrades the waste which can be seen in the form of reduction in the mass of the product.,,,,,Renuka Thergaonkar,[],[],[],[],[],[]
+IN2013MU01341A,Patent IN2013MU01341A ,IN,2015-04-10,The present invention relates to an orally disintegrating tablet comprising a therapeutically effective amount of methylxanthine derivative provided in a sustained release dosage form and a therapeutically effective amount of an antihistamine selected from second generation and third-generation histamine HI receptor antagonist in an immediate release form The invention also provides process of preparation of orally disintegrating tablet.,,,,,Supriya Dr Shidhaye,[],[],[],[],[],[]
+IN2013DE01177A,Patent IN2013DE01177A ,IN,2015-06-26,"The present invention is directed to an improved catalytic process for the synthesis of dihydrobenzothiazepine by the cyclocondensation of ?, ? unsaturated carbonyl compound with o-aminothiophenol in the presence of catalytic amount of ionic liquid as an organo catalyst which does not necessitate any oxidizing agent as well as additional organic solvent as a reaction media.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013CH02586A,Patent IN2013CH02586A ,IN,2015-10-02,"1. A monosaccharide compound of the general formula 1 wherein 'm' is from 1 to 3, 'x'isOH, SH, orNH2, alkyne motif can be at any carbon (C i to C 6 ) on the sugar scaffold , sugar can be a pentose sugar or hexose sugar and can be in in furanose or pyranose form 2. A polysaccharide compound of the general formula 2 comprising repeating units of formula 1 as claimed in claim 1 wherein 'm' is from 1 to 3, 'n' is the number of repeating units and is from 2 to about 5,000., 'x' is OH, SH or NH2, alkyne motif can be at any carbon (C 1 to C 6 ) on the sugar scaffold. 3. A polysaccharide compound as claimed in claim 2, wherein the polysaccharide is preferably 1,4-triazolyl-linked polygalactose .",,,,,Meethaleveetil Sureshan Kana,[],[],[],[],[],[]
+IN2014DN06932A,Patent IN2014DN06932A ,IN,2015-04-10,"A method of making silk comprising the steps of disposing a silkworm on a substantially flat surface (61) which is sufficiently free of anchor points that the silkworm cannot spin a cocoon thereon. The silkworm is able to move around on the surface (61) whilst secreting silk thread, thereby forming a mat of silk on the surface. After the formation of a mat (51, 52) of silk the silkworm is removed from the surface. The mat (51, 52) of natural silk comprises a continuously spun thread extending in multiple paths across the area of the mat in a pattern of crossing thread portions. In an advantageous embodiment, the surface (61) is held at an angle (a) to the horizontal whereby the silkworms tend to climb up the surface (61).",D01B7/00,Obtaining silk fibres or filaments,,,Barton Sally,"['GB201021451D0', 'CN102978716B', 'KR101602791B1', 'FR3051487B1', 'US11814751B2', 'CN109666975B', 'JP7444377B2', 'CN113182203B']","['JPS56159337A', 'CN1043161C', 'JP2000316422A', 'JP3306025B2']","['GB201021451D0', 'CN102978716B', 'KR101602791B1', 'FR3051487B1', 'US11814751B2', 'CN109666975B', 'JP7444377B2', 'CN113182203B', 'JPS56159337A', 'CN1043161C', 'JP2000316422A', 'JP3306025B2']","['CN102978716B', 'CN109666975B', 'CN113182203B']",['CN1043161C'],"['CN102978716B', 'CN109666975B', 'CN113182203B', 'CN1043161C']"
+IN2013DE01819A,Patent IN2013DE01819A ,IN,2015-06-26,"A multipurpose dental patient drape has been proposed for expediting work in the operative by facilitating the work of dentist, dental-chair assistant as well as patient. The present invention proposes a patient drape having one or more means to hold dental instruments/equipment required during a clinical dentistry procedure. The drape also has a means at the distal end of the drape away from the hands of the dentist and the dental assistant for placing the patient’s personal belongings like mobile phone, car keys, sun-glasses etc. The drape proposed by the present invention augments clinical working environment in a sit-down or four-handed dental practice and thus expedites the working in the operative field for dentist, dental chair-side assistant and the patient.",,,,,Harpinder Singh Chawla,[],[],[],[],[],[]
+IN2013MU02513A,Patent IN2013MU02513A ,IN,2015-06-19,ABSTRACT: Disclosed herein is a process for separation of Semiconducting and Metallic Single Walled Carbon Nanotubes by optical excitations. The process of the present invention is devoid of chemical modification or physical process.,,,,,Harsh Chaturvedi,[],[],[],[],[],[]
+IN2013CH04517A,Patent IN2013CH04517A ,IN,2015-04-10,"Biscuits for health promotion, skill development and behaviour modification in autism were specially formulated with beneficial functional food ingredients and developed as a food supplement to address the problems of the autistic children. This biscuit has been designed to be gluten free, casein free, sugar free and additive free to be conducive for the development of the autistic children. The specific food ingredients present in the biscuit were aimed at producing improvement in their nutritional status, alleviate their atypical behaviours and enhance their functional skills. Nutritional status of the children was enhanced with better immunoglobulin levels. A significant improvement (p<0.05) was observed in the behaviour pattern and the functional skills of the autistic children who received the nutritional supplement in the form of biscuits. This food supplement could be used as an alternative therapy for the improvement of children with autism disability. It needs to be patented since it has a prospective market value.",,,,,V Alli Dr M,[],[],[],[],[],[]
+IN151169B,Patent IN151169B ,IN,1983-03-05,,F41G3/26,Teaching or practice apparatus for gun-aiming or gun-laying,,,L Knight,"['DE4103637C2', 'US7291014B2']","['GB1179350A', 'BE791465A', 'GB1475272A', 'IL49890A']","['DE4103637C2', 'US7291014B2', 'GB1179350A', 'BE791465A', 'GB1475272A', 'IL49890A']",[],[],[]
+IN2013CH04607A,Patent IN2013CH04607A ,IN,2015-07-31,"ABSTRACT According to an aspect of the present disclosure, mechanical way of deploying a drag sail is proposed. According to another aspect of the present disclosure, telescope support structure (TSS) is used to provide stiffness or stiffness to the sail embodiment. Several embodiments are described below, with reference to diagrams of illustration. It should be understood that numerous specific details are set forth to provide a full understanding of the invention. One skilled in the relevant art, however, will readily recognize that embodiments may be practiced without one or more of the specific details, or with other methods, etc. In other instances, well-known structures or operations are not shown in detail to avoid obscuring the features of the invention.",,,,,shashank B,[],[],[],[],[],[]
+IN2013CH04735A,Patent IN2013CH04735A ,IN,2015-07-31,"ABSTRACT According to an aspect of the present disclosure, an apparatus in the form of section of a pipe is used. Water is used as a liquid in the pipe. An injector pipe of comparably smaller diameter smaller diameter is connected tangentially to this pipe with respect to its radial cross-section. Forced exit of the water in the generator pipe into the container formed by the pipe results in creation of uniform circular motion into the column of water with-in it. This continuous force builds up a strong vertex at the open end of the pipe with higher suction rate or draw towards its cavity. Conventionally, applying rotational force at open ended surface itself creates a vortex. Two of these types of vortex generators are combined together in a mutually aiding direction. The resulting vortex has higher efficiency and resulting in with deeper cavity and suction force. In one embodiment, this mechanism is used to draw the objects, materials and/or contents out of the commode.",,,,,Gangadharaiah T,[],[],[],[],[],[]
+IN2013CH04733A,Patent IN2013CH04733A ,IN,2015-04-24,"ABSTRACT According to an aspect of the present disclosure, present location of a mobile device is extracted which adds to the tracking thereof. According to another aspect of the present disclosure, an embodiment is proposed to communicate and extract the location information from the mobile device comprising a GSM module, a microcontroller, a computer with interface and I/O devices. According to another aspect of the present disclosure GSM module is made use to communicate with the mobile device. According to another aspect of the present disclosure, a secured access is ensured to the embodiment using the concept of speech recognition where a spoken word in the database is used as a password. According to another aspect of the present disclosure, an application is developed and installed on the mobile device that collects the location information from the device.",,,,,N Swetha,[],[],[],[],[],[]
+IN2013CH04734A,Patent IN2013CH04734A ,IN,2015-04-24,"ABSTRACT According to an aspect of the present disclosure, alcohol sensor is configured in a vehicle to sense the alcohol content of the driver. The metal sensor is used along with alcohol sensor to detect the presence of key inside the vehicle. Also, whenever, metal sensor, alcohol sensor senses the key and the alcohol, a microcontroller displays a message on a screen. According to another aspect of the present disclosure, when alcohol content is detected, the microcontroller turns OFF the vehicle ignition. Also, the buzzer is turned ON, to alert the driver. According to the yet another aspect to the present disclosure, the GPS module is used as a receiver to locate the position of the vehicle. On the other hand, the GSM modem sends a message to a set of pre-specified contacts. According to yet another aspect of the present invention, the microcontroller turns ON the fore indicator, back indicator, parking lights etc.",,,,,N Shashikala B,[],[],[],[],[],[]
+IN2013CH04808A,Patent IN2013CH04808A ,IN,2015-09-18,"The wearable device comprises a plurality of sensors, a microprocessor, a wireless communication module and a miniature power supply. The plurality of sensors comprises a galvanic skin response (GSR) sensor and a pulse sensor. The galvanic skin response (GSR) sensor comprises a resistance measurement circuit, a low pass RC filter, a pair of electrodes and a conductive gel. The resistance measurement circuit is a Wheatstone bridge circuit with the three arms of known resistance and a fourth arm is kept open. The pair of electrodes with skin contact acts as resistor in the fourth arm. The pulse sensor comprises a pair of light emitting diodes and a pair of light collecting sensors. The plurality of sensors is connected to the microprocessor. The wireless communication module receives data from the microprocessor, encodes it and transmits it to a remote computing device.",,,,,Niranjan Krupa Dr B,[],[],[],[],[],[]
+IN153335B,Patent IN153335B ,IN,1984-06-30,,,,,,Ved Ratna,[],[],[],[],[],[]
+IN2013CH05061A,Patent IN2013CH05061A ,IN,2015-05-29,,,,,,V Sreenivas Rao K,[],[],[],[],[],[]
+IN2013CH05060A,Patent IN2013CH05060A ,IN,2015-05-29,"Abstract According to an aspect of the present disclosure, the successful storage and retrieval of the data is achieved with high reliability in terms of higher level of security of IDA with AONT-RS encoding. Along with this AONT-RS encoding it also ensured that this level of security is achieved with lower additional requirement of computational and storage costs, as shown in the data storage requirement, which is less than twice the size of the original data. This method with the apparatus used also ensures data storage is reliable in case of server unavailability and failure scenario. Also, demonstrated that the higher security on the data stored or dispersal is achieved without relying on encryption keys, which, otherwise need to be stored and retrieved explicit to the method and apparatus in use.",,,,,R Prasanna Kumar K,[],[],[],[],[],[]
+IN2013CH05438A,Patent IN2013CH05438A ,IN,2015-05-29,"In one embodiment of the present disclosure, a control system is designed to control flame in a gas stove. The control system is consisting of a microcontroller/microprocessor to control its peripherals and the peripherals may include a GSM module, a stepper motor, a load cell, a gas sensor, a database, an input device and an output device. In another embodiment of the present disclosure, the GSM module enables to control the gas stove using a mobile device. According to an aspect of the present disclosure, the microcontroller is configured to provide three modes of operation such as automatic mode, auto-intelligent mode and remote controlled mode. According to another aspect of the present disclosure, auto-intelligent mode supports pre configured cooking timings which are stored in the database.",,,,,N Shashikala B,[],[],[],[],[],[]
+IN2013DE03500A,Patent IN2013DE03500A ,IN,2015-06-12,"The present invention provides an improved, eco-friendly and catalyst free process for selective synthesis of xanthenes-1,8(2H)-diones and analogues thereof of the general formula (A) from the cyclocondensation of aldehyde (I) with 1,3 diketone (II) in under milder reaction conditions",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2013DE03558A,Patent IN2013DE03558A ,IN,2015-06-12,"The present invention relates to the design and development of a suitable nanocarrier capable of improving the oral bioavailability of various difficult-to-deliver drugs such as anticancer agents, polyene antibiotics, antioxidants categorized as BCS class II, III or IV. More importantly, the developed LCNPs were lyophilized using step wise freeze drying cycle for improving the long term stability. The invention relates to the design and development of a suitable nanocarrier capable of improving the oral bioavailability of various difficult-to-deliver drugs such as anticancer agents, polyene antibiotics, antioxidants categorized as BCS class II, III or IV. Particularly, the developed nanocarrier system, i.e. Liquid crystalline nanoparticles (LCNPs) is suitable for oral route of administration, poses enhanced stability in simulated gastrointestinal fluids, long term stability at accelerated conditions of temperature and humidity as per ICH guidelines, increased oral bioavailability, therapeutic efficacy and safety profile as compared to clinical formulations",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2013DE03832A,Patent IN2013DE03832A ,IN,2015-07-03,The present invention relates to a solar tracking system. More particularly the present invention relates to a self-positioning solar tracking system using sequenced latching that uses small perturbation techniques. The system includes a solar panel mounted over a rectangular frame. The system may further include a plurality of photodiodes comprising a first photodiode for the flow of current in control circuit of the system and a second photodiode to keep the frame perpendicular to the sun. The system may further include a plurality of lead screw motors arranged at center of the four edges of the frame in order to move the frame keeping the frame perpendicular to the sun.,,,,,Kumar Nandy Biplob,[],[],[],[],[],[]
+IN2014CH00002A,Patent IN2014CH00002A ,IN,2015-07-03,"According to an aspect of the present disclosure, the electronic controlling system is designed and developed to control areca leaf nut pressing machine. The control system is designed to get the molds at a desired temperature and time set by the operator. The control system is capable to maintain customized temperature and time required for the pressing process. On the other hand, the control unit provides input switches for operators to set required time, temperature and a LCD display system for reference. According to yet another aspect of present invention, the automation control system includes sensing and controlling of mould temperature by the control unit and pressing the leaves for the required time. According to yet another aspect of present invention, the automation includes opening and closing of upper mould as per the process requirement using geared DC motor.",,,,,Raveesh S,[],[],[],[],[],[]
+IN2014CH00016A,Patent IN2014CH00016A ,IN,2015-07-10,"To avoid drawbacks like addition of payload, to increase robustness against re-encoding and some common watermarking attacks and to provide a more efficient H.264 compression domain watermarking, a new watermarking scheme is introduced. A new watermark embedding and extraction method is introduced where one ac co-efficient of one macroblock is modified to embed a single watermark bit. The watermark is a readable watermark in the quantized ac coefficients of I frames wherein the original video is necessary to calculate the parameter of visual model enhancing the security of the watermark considerably. It is shown that video quality degradation is comparatively less and better than previously available.",,,,,B Sathisha,[],[],[],[],[],[]
+IN2014DE00010A,Patent IN2014DE00010A ,IN,2015-07-10,"The present invention provides a novel solid self-emulsifying formulation comprising tamoxifen in combination with antioxidant such as quercetin, a solid carrier, an oily phase, a surfactant and a co-surfactant. The developed formulation showed enhanced oral bioavailability, improved breast tumor efficacy and reduced the hepatotoxicity.",,,,,Jain Sanyog,[],[],[],[],[],[]
+IN2014CH00209A,Patent IN2014CH00209A ,IN,2015-07-31,,,,,,Suresh R,[],[],[],[],[],[]
+IN2015KO00989A,Patent IN2015KO00989A ,IN,2015-09-25,"This invention relates to a process of preparing oxide thin film from sol gel solution on different substrates and in particular, this invention relates to a process of preparing oxide thin film wherein single dip and uniform coating is needed to grow a thin film. More particularly, this present invention relates to an apparatus for preparing oxide thin film. Furthermore, this invention also relates to an apparatus for preparing oxide thin film by thermo-magnetic chemically wet and dry (CWD) technique i.e. in-situ thermal annealing facility in presence of magnetic field for spintrOnics/optoelectronics and different sensor applications.",,,,,Kumar Kamilla Dr Sushanta,[],[],[],[],[],[]
+IN2014DE00338A,Patent IN2014DE00338A ,IN,2015-08-07,"The present invention provides an improved catalytic process for the synthesis of dibenzo[1,3]diazepines by coupling of amines with aldehydes in the presence of metal nanoparticles as catalyst. The process has certain advantages as this method involves a single step preparation, fast reaction rate, clean reaction with high product yield and also the method has advantage of reusability of the catalytic system.",,,,,Kumar Chakraborti Asit,[],[],[],[],[],[]
+IN2015KO00413A,Patent IN2015KO00413A ,IN,2015-05-22,"The present invention discloses an interactive system for creating time lapsed animation. The interactive system comprises a workspace enabling display of background in relation to movable animation props, an imaging device for capturing images of the background in relation to repeated reorientation of the animation props, a computing device for storing the captured images of the imaging device in a sequential manner, a display module for playing the stored image sequence from said computing device and a controllable activation means for playing the stored image sequence at user defined rate in said display module and thus representing the repeated reorientation of the animation props with respect to the background as time lapsed animation.",,,,,Shri Subhabrata; Chaudhuri,[],[],[],[],[],[]
+IN2013CH03857A,Patent IN2013CH03857A ,IN,2015-06-19,"Abstract The present invention provides a system and computer implemented method for creating and extracting interactive annotations for objects, wherein the method comprising of capturing an image with objects of user's interest using a network enabled mobile image device, annotating the captured image with meta-tag, assigning geo-markers for the annotated image, uploading annotated image along with computed location to a remote server, viewing user's vicinity and capturing an image using the device, extracting objects and geographical markers of the image from the device, computing location from the geo markers, generating a subset of archived objects whose computed location are within a defined proximity of the user's captured image to identify all those objects on the user's image, super-imposing those meta-tags of the archived images on the user's image for respective objects, accessing meta-tag on the user's image to learn more about any object seen, and initiating a transaction using the meta-tag.",,,,,Anantharaman Iyer Subramanyam,[],[],[],[],[],[]
+IN2014DE00376A,Patent IN2014DE00376A ,IN,2015-08-14,"The present invention is of the result of study from the ancient ayurveda books, which helped to invent the strong medicated extract for the tretment of various ailments related to human eye. thus the medicine is used externally as eye drop. A process of manufacture of an ophthalmic preparation, an eye drop from naturally occurring substances for treating certain ailments of human eye The present invention is related to the mixture of the herbal extractsmanufactured by the extraction of herbal medicated extracts. the herbal extraxt mixture is thus used as a herbal medicine eye drop for the treatment of various ailments of the human eye. the mixture is made up from the extract of the naturally occuring medicated herbs and plants. the medicated extract mixture is thus a combination of following Herbs: 1. SUHAGA 2. Masala Thikri 3. Kalmi Shora 4. gulab jal and alum.",,,,,Kumar Gupta Sunil,[],[],[],[],[],[]
+IN138121B,Patent IN138121B ,IN,1975-12-20,,,,,,Unknown,[],[],[],[],[],[]
+IN153131B,Patent IN153131B ,IN,1984-06-02,"In a method and apparatus for studying surface properties of a testpiece, such as refractive index or thickness of a layer or film on said surface, electromagnetic radiation is directed on to the test surface or a reference surface which has known properties, and reflected on to the other surface. The angle of incidence in respect of the incident radiation, in relation to the respective surfaces, are the same, and the surfaces are so arranged that when the radiation is reflected from one surface on to the other, the parallel polarization component of the first reflection is the perpendicular component of the second reflection. Radiation in the same state of polarization as before the first reflection is extinguished by an analyzer, providing for point-to-point comparison between the two surfaces.",G01N21/211,Ellipsometry,,,Johan Emanuel Stenberg,"['DE3135196A1', 'US4502762A', 'JPS59103255U', 'JPS6052706A', 'DE3419463C1', 'DE3434575C1', 'US6060237A', 'US4681450A', 'US5482830A', 'DE3914631A1', 'US5639671A', 'US5541057A', 'US5955377A', 'US5550063A', 'DE69127628T2', 'US5418136A', 'US5494829A', 'DE69421844T2', 'US5552272A', 'US7301631B1', 'US7193710B1', 'US7518725B1', 'US7075649B1', 'US7215424B1', 'US5958704A', 'US6278519B1', 'US5798837A', 'US7345762B1', 'US7535566B1', 'US6795184B1', 'US6713753B1', 'JP3978153B2', 'US20120077206A1', 'AU2004273783A1', 'US7738105B1', 'US8189193B1', 'WO2007070832A1', 'US8169611B2', 'US8488119B2', 'US8736838B2', 'US8416408B1', 'US8934096B2', 'US8564777B1', 'ES2551922T3', 'US10254204B2', 'EP2798322B1', 'US9677109B2', 'EP3278115A2', 'US10253355B2']","['US3622245A', 'FR2257914B1', 'JPS51129279A']","['DE3135196A1', 'US4502762A', 'JPS59103255U', 'JPS6052706A', 'DE3419463C1', 'DE3434575C1', 'US6060237A', 'US4681450A', 'US5482830A', 'DE3914631A1', 'US5639671A', 'US5541057A', 'US5955377A', 'US5550063A', 'DE69127628T2', 'US5418136A', 'US5494829A', 'DE69421844T2', 'US5552272A', 'US7301631B1', 'US7193710B1', 'US7518725B1', 'US7075649B1', 'US7215424B1', 'US5958704A', 'US6278519B1', 'US5798837A', 'US7345762B1', 'US7535566B1', 'US6795184B1', 'US6713753B1', 'JP3978153B2', 'US20120077206A1', 'AU2004273783A1', 'US7738105B1', 'US8189193B1', 'WO2007070832A1', 'US8169611B2', 'US8488119B2', 'US8736838B2', 'US8416408B1', 'US8934096B2', 'US8564777B1', 'ES2551922T3', 'US10254204B2', 'EP2798322B1', 'US9677109B2', 'EP3278115A2', 'US10253355B2', 'US3622245A', 'FR2257914B1', 'JPS51129279A']",[],[],[]
+IN2003CH00931A,Patent IN2003CH00931A ,IN,2005-04-22,"Polyolefin woven and nonwoven fibers, filaments and fabrics made therefrom which comprise a melt blend which comprises (a) a polyolefin; and (b) at least one compound of the formula (I) R1-(hydrophilic oligomer)(I) wherein R1 is a straight or branched chain alkyl of 22 to 40 carbon atoms and the hydrophilic oligomer is a homo- or co-oligomer consisting of monomer units derived from monomers selected from the group consisting of ethylene oxide, propylene oxide, ethylene glycol, propylene glycol, epichlorhydrin, acrylic acid, methacrylic acid, ethylene imine, caprolactone, vinyl alcohol and vinyl acetate; and wherein the hydrophilic oligomer consists of between 2 and 10 monomer units, exhibit excellent durable wettability. The fabrics are useful in disposable diapers, training pants, feminine napkins, tampons, incontinence care products, wet and dry wipes, wound dressings, surgical capes, filter medial, battery separators and the like.",D04H3/16,"Non-woven fabrics formed wholly or mainly of yarns or like filamentary material of substantial length characterised by the method of strengthening or consolidating with bonds between thermoplastic filaments produced in association with filament formation, e.g. immediately following extrusion",,,Sheng-Shing Li,"['US8207070B2', 'US8038725B2', 'US20050096620A1', 'US20050245157A1', 'US20060003154A1', 'US7285595B2', 'US20060068673A1', 'JP4767672B2', 'US8022133B2', 'US20060212072A1', 'US20070010148A1', 'US20070010153A1', 'US20100311920A1', 'EP1940279A2', 'US20070141936A1', 'WO2008012236A1', 'US20100311849A1', 'CN100455342C', 'EP2155815B1', 'WO2009043946A1', 'WO2009145105A1', 'US9074303B2', 'CN102439209B', 'JP5546629B2', 'US8236886B2', 'KR20120116387A', 'WO2011035190A1', 'EP2316498A1', 'CN101798711B', 'EP2471856A1', 'CN102336960A', 'US20140051812A1', 'CN103030863B', 'US9205006B2', 'US9504610B2', 'CN105228733A', 'WO2014170423A2', 'RU2641861C2', 'CN103421235B', 'CN105637116A', 'US10569227B2', 'DE102014205133A1', 'EP3193801B1', 'ES2703558T3', 'DK3221393T3', 'KR101833495B1', 'MY184302A', 'BR112018067970A2', 'US11724002B2', 'US11090407B2', 'RU2721501C1', 'JP7305621B2', 'JP6545881B1', 'RU192457U1', 'CN111282347A', 'CN114438604B', 'WO2024083872A1', 'CN115957569B', 'EP4397397A1']","['BE615683A', 'DE2109030B2', 'DE2924539C2', 'SE8002882L', 'US5001015A', 'US5348736A', 'US5240985A', 'US5272196A', 'US5328951A', 'US5281438A', 'US5262233A', 'US5241042A', 'FR2706492B1', 'US5614574A', 'US5464691A', 'JP3475596B2', 'US5733822A', 'US5985193A', 'US5685758A', 'US5804625A', 'US5698322A', 'CN1226906A', 'US6070107A', 'CA2241613A1', 'US6110849A', 'US6146757A', 'EP1123361B1', 'DE19851687A1', 'US6153701A', 'US6239047B1', 'KR100714953B1', 'US6218009B1', 'DK1152027T3', 'US8207070B2']","['US8207070B2', 'US8038725B2', 'US20050096620A1', 'US20050245157A1', 'US20060003154A1', 'US7285595B2', 'US20060068673A1', 'JP4767672B2', 'US8022133B2', 'US20060212072A1', 'US20070010148A1', 'US20070010153A1', 'US20100311920A1', 'EP1940279A2', 'US20070141936A1', 'WO2008012236A1', 'US20100311849A1', 'CN100455342C', 'EP2155815B1', 'WO2009043946A1', 'WO2009145105A1', 'US9074303B2', 'CN102439209B', 'JP5546629B2', 'US8236886B2', 'KR20120116387A', 'WO2011035190A1', 'EP2316498A1', 'CN101798711B', 'EP2471856A1', 'CN102336960A', 'US20140051812A1', 'CN103030863B', 'US9205006B2', 'US9504610B2', 'CN105228733A', 'WO2014170423A2', 'RU2641861C2', 'CN103421235B', 'CN105637116A', 'US10569227B2', 'DE102014205133A1', 'EP3193801B1', 'ES2703558T3', 'DK3221393T3', 'KR101833495B1', 'MY184302A', 'BR112018067970A2', 'US11724002B2', 'US11090407B2', 'RU2721501C1', 'JP7305621B2', 'JP6545881B1', 'RU192457U1', 'CN111282347A', 'CN114438604B', 'WO2024083872A1', 'CN115957569B', 'EP4397397A1', 'BE615683A', 'DE2109030B2', 'DE2924539C2', 'SE8002882L', 'US5001015A', 'US5348736A', 'US5240985A', 'US5272196A', 'US5328951A', 'US5281438A', 'US5262233A', 'US5241042A', 'FR2706492B1', 'US5614574A', 'US5464691A', 'JP3475596B2', 'US5733822A', 'US5985193A', 'US5685758A', 'US5804625A', 'US5698322A', 'CN1226906A', 'US6070107A', 'CA2241613A1', 'US6110849A', 'US6146757A', 'EP1123361B1', 'DE19851687A1', 'US6153701A', 'US6239047B1', 'KR100714953B1', 'US6218009B1', 'DK1152027T3', 'US8207070B2']","['CN100455342C', 'CN102439209B', 'CN101798711B', 'CN102336960A', 'CN103030863B', 'CN105228733A', 'RU2641861C2', 'CN103421235B', 'CN105637116A', 'BR112018067970A2', 'RU2721501C1', 'RU192457U1', 'CN111282347A', 'CN114438604B', 'CN115957569B']",['CN1226906A'],"['CN100455342C', 'CN102439209B', 'CN101798711B', 'CN102336960A', 'CN103030863B', 'CN105228733A', 'RU2641861C2', 'CN103421235B', 'CN105637116A', 'BR112018067970A2', 'RU2721501C1', 'RU192457U1', 'CN111282347A', 'CN114438604B', 'CN115957569B', 'CN1226906A']"
+IN2015DE03387A,Patent IN2015DE03387A ,IN,2017-04-28,,,,,,Unknown,[],[],[],[],[],[]
+IN2015MU03388A,Patent IN2015MU03388A ,IN,2015-09-18,"Exhaust Gas coming from Exhaust Manifold to Exhaust Gas Burning Cooling and Filtering (EGBCF), in order to reduce the Emission of NOx, which is particularly very harmful. Engine without EGBCF are more pollutant. Implementation of EGBCF system in engine, burning, cooling and filtering exhaust gas takes place. The aim of this work is to review the potential of EGBCF to reduce the exhaust emissions, particularly NOx emissions, and to delimit the application range of this technique. In this study a simple low-cost exhaust gas EGBCF was developed and tested on an I.C. engine. Emission of oxide of nitrogen (NOx) was very much reduced by implementation of EGBCF system. Emission of carbon mono-oxide (CO) and hydro carbon (HC) was also reduced; carbon dioxide (C02) increases by implementing EGBCF system with engine than that of operating engine without EGBCF system, with no increase in the fuel consumption rate. The system is very much eco friendly and emissions are controlled. This method is very reliable in terms of reduce of exhaust Emission.",,,,,Powar Santosh Vishwanath Mr,[],[],[],[],[],[]
+IN2015CH04125A,Patent IN2015CH04125A ,IN,2015-08-28,"Actinomycetes is the gram positive bacteria which are most commonly isolated from the marine soil sample because the salt tolerant organism. In the initial stage of the appearance actinomycetes shows the white powdery in appearance. With the help of the specific media the actinomycetes are isolated successfully following different categories. Isolated actinomycetes shows the different characters of biochemical appearance. Biochemical appearance of actinomycetes resembles with different characters of the bioactive compound, with the different parameters. Isolation of actinomycetes subjected to different characters in morphology and also the resemblance of identification. Actinomycetes are the dominant group of soil population together with bacteria and fungi. Gram positive bacteria characters having the high G+C (>55%) content in their DNA.Bioactive compound isolated and identified characters are having the high amount of active compounds and also the biological characters. Bioactive compounds that may raises new possibilities in the diagnosis and treatment.With the outline of the compound it is easy to check the anticancer property of the isolated one.The study determines that the character of bioactiveagainst the cancer and shows the property of controlling the cancer cells.",,,,,Masilamani Selvam M,[],[],[],[],[],[]
+IN2015MU02839A,Patent IN2015MU02839A ,IN,2015-08-07,"Tremendous growth in digital world has changed human lives today. More and more efficient and effective digital applications initiatives taken by government across globe will make great impact on next generation with experiencing more and more digitization. Current use of the Mobile phones along with novel wearable devises today have demonstrated example of the same. There is a great need to extend various features provided by cell phones and other digital devices for blind persons. To achieve this challenging task we, in this innovative work, propose novel mobile cell phone integrated with wearable watch design which shall act as essential handled devices for blinds that can be used for managing call, SMS, etc. effectively. Proposed SANCHARAK (A Cell phone for blind) and wearable device SAMAY (The Smart Braille enabled wrist watch for blind) are developed after rigorous survey followed by feedback and requirements from large number of blind organizations and are demonstrated with use of buzzer, QWERTY keyboard, ICE calling, alarm facility, GPS location Tracking, battery level indication, network level indication etc. with Braille language support. In addition to regular functions of watch, SMS, Call and other Notifications being displayed on SAMAY with integration of novel technology of SANCHARAK shall make visually impaired person work more efficiently, since both devices communicates with each other remotely and are implemented after incorporating continuous feedback. We strongly believe that use of these smart features will contribute at large in increasing exponentially work-efficiency and help to society at large. Preliminary results are very much encouraging and highly appreciated by intellectuals, various agencies, NGOs, research community, study groups, and prospective users.",,,,,Narsi Patel Hitarth,[],[],[],[],[],[]
+IN2015KO00804A,Patent IN2015KO00804A ,IN,2015-08-07,"ABSTRACT Alzheimer’s disease (AD) is a neurodegenerative disease which shows both age and gender dependence. Female reproductive hormone estrogen has been reported as one of the reason for longevity in females and protection against AD during reproductive phase however females are more prone to AD compared to males during post-reproductive phase. The present invention employs usage of males and hermaphrodite of Caenorhabditis elegans AD disease model, CL4176 strain, which expresses the human Amyloid-beta (Aß1–42) in C. elegans muscle tissues to study gender based difference in etiology of AD in humans. Gender based difference in etiology of AD requires separate model systems to check the mechanism of the disease occurrence and efficacy of potent drugs. Hence Caenorhabditis elegans model is also used to determine the role of gender in the etiology of Alzheimer's disease. Following invention is described in detail with the help of Figure 1 of sheet 1 which shows better tolerance to Aß toxicity, oxidative stress and better efficacy for Donepezil drug in CL4176 males compared to hermaphrodite. Figure 2 of sheet 2 which shows CL4176 males show up-regulated levels of DAF-16 mRNA compared to CL4176 hermaphrodites whereas HSF-1 mRNA levels are unaltered.",,,,,Kumar Dr Jitendra,[],[],[],[],[],[]
+IN2015CH03675A,Patent IN2015CH03675A ,IN,2015-07-31,"ABSTRACT OF THE INVENTION (to be given along with complete specification on the separate page) This is a portable electronic device for measuring the stress of elephants from urine. For this study urine was collected from 15 elephants and tested. Stresensor is equipment for the analyses of biological reaction. It is a reader device and user friendly associated with electronics and signal processing units. One common example of a Stresensor is like a glucometer.. We are also successful in isolating the electrogenic bacteria which include bacillus species and pseudomonas species. The main objective being the generation of alternating form of electricity from elephant'surine..This project is mainly of two parts. One is the Biological strip and second is the Electronics detector module. Only the strip is enough for the electrons detecting. When biological reaction is completed the electrons come at other end of the strip depends on quantity of venom. But this reaction is not visible through human eyes. The detector sensor is important factor at this time. The Microcontroller (Programmed integrated circuit) is the main part of detector sensor. The function of Microcontroller is continuous testing of some terminals. When electrons come at these terminals the display will show the quantities of electrons come and which terminal is activated. The Analogue to digital converter (ADC) is an important section of this project. ADC is used for the measure of electron flow. The use of display is to show the amount of parameters and the name of Things. The main objective, being the generation of alternating form of electricity from elephant'surine. The growth of computational approaches within various biomedical disciplines is raising due to the production of useful bioinformatics database and methods for the rest of the biomedical scientific community. Bioinformatics has. been growing for about last thirty years .The field development has experienced leaps and bounds due to the advanced in technologies and emerged invaluable in many research works. Molecular sequence databases are a widely adopted contribution in biomedicine from the field of bioinformatics, and microarray analysis is one of the major techniques used by the bioinformatics community As an every disease has a genetic component, the sequenced human genome will have profound effect on the fields of biomedical research. Improved understanding of disease mechanisms can be gained using computational tools to identify and validate new drug targets. Bioinformatics has applications in various fields like personalized medicine, Preventative medicine, Microbial genome applications, evolutionarystudies, insectresistance, Improve nutritional quality etc.",,,,,G Gireeshan Dr M,[],[],[],[],[],[]
+IN2015MU02699A,Patent IN2015MU02699A ,IN,2015-10-02,"ABSTRACT: Worldwide crores of people use steps, lift and man lifted chairs to come down from high altitude to low altitude. This method of stepping down is highly uncomfortable and painful specifically for the persons with health problems. The present equipment will clearly give solution to sliding down for all types of person. It will make it easy, without use of any external energy and pollution free. The present invention relates to equipment based on hemispherical vessel of diameter around 600 mm or any suitable diameter. It has a provision of handle and hand operated brakes. It also has a provision of strong metallic clips placed in metallic wire for sliding down by gravitational force without use of artificial energy. One or more interlinked hemispherical vessel at the base slides in downward direction over metallic surface and velocity is controlled by operating hand brakes. Equipment can be operated by any person and other person also can assist during operation; it does not require special qualification or training. Equipment can be used to avoid use of legs for stepping down from high altitude to low in any place or building where people use steps. Equipment is cost efficient, easily adaptable worldwide. And it does not cause any kind of pollution like sound, air etc.",,,,,Ashok Nagarkar Sneha,[],[],[],[],[],[]
+IN2015KO00717A,Patent IN2015KO00717A ,IN,2015-07-10,"ABSTRACT ISOLATION, IDENTIFICATION, CHARACTERIZATION AND BIOEFFICACY TESTING OF 3, 4-SECO-LUP-20(29)-EN-3-OIC ACID, NOVEL DIABETIC THERAPEUTIC AGENTS FROM SEED OF HOLARRHENA ANTIDYSENTERICA A method of obtaining anti-diabetic/anti-hyperglycemic novel compound 3, 4-seco-lup-20(29)-en-3-oic acid of formula I, I I said method comprising maceration of a certain weight of pulverized seeds of Holarrhena antidysenterica at room temperature suitably in a solvent and preparation of lyophilized extract, dissolving the lyophilized crude extract in a suitable volume of hydroethanolic solution, carrying out solvent partitioning using various solvents, subjecting all fractions obtained by filtration for the bio-activity study to identify most active fraction responsible for anti-hyperglycemic/anti-diabetic activity and subjecting it to column chromatography, the sticky solid mass so obtained is crystallized twice from 20% chloroform in n-Hexane solvent to yield colourless rectangular crystals, identified as compound with structural formula I.",,,,,Debidas Ghosh,[],[],[],[],[],[]
+IN2015DE01938A,Patent IN2015DE01938A ,IN,2015-07-31,"In present work, a comparative experimental study has been presented on rough cut, trim cut using distilled water and trim cut using Al and Si metal powders in dielectric fluid for WEDM of Nimonic-90. Firstly, the influence of discharge energy in rough cut has been evaluated for machining rate (MR) and surface roughness (SR) and then, compared with trim cut without any metal powder additives in dielectric fluid. The influence of Al and Si metal powders (varying concentration of 1g/L, 2g/L and 3g/L) in dielectric fluid has been evaluated separately and compared for MR, SR, recast layer and micro hardness of machined Nimonic-90. Using trim cut, a fine and uniform surface texture was obtained irrespective of the high discharge energy of rough cut. Addition of Al and Si powders shows a significant reduction in MR for trim cutting operation whereas a remarkable modification has been obtained in surface textures after trim cut using metal powder mixed dielectric. SR improves with a concentration of 1g/L and then shows a little increase with high concentration of both metal powders. Using metal powder in dielectric fluid, the recast layer becomes smooth and denser and thus, micro hardness increases.",,,,,Kumar Vinod,[],[],[],[],[],[]
+IN2015DE01853A,Patent IN2015DE01853A ,IN,2015-08-21,"The main intention of the present invention is the manufacture of brick from waste material of steel industry, fly ash, Brahmaputra river sand, and cement as binder. Lime mud, a waste material produced from paper industry is also used to replace the partial quantity of cement to make it more economical. This invention will help to reduce the disposal problem, environmental effects of this waste and manufacture a new building material. As mentioned, the materials used for brick making in this study are steel sludge, the waste of steel industry, flyash, Brahmaputra sand, lime mud, the waste of paper industry and cement. The characterization of materials was done on the basis of its chemical and geotechnical properties. Then the experiments were conducted on hand moulded bricks of above mix in various proportions to determine the optimum mix. The moulded bricks were 'allowed to dry for two days and protected from direct sun light. .Since cement was used in all the bricks, curing was done using moist jute bags for 28 days. All bricks were tested after 28 days for compressive strength and water absorption as per the provisions of IS: 3495 (Part 1 & 2)-1992, respectively.",,,,,Sarkar Dr Raju,[],[],[],[],[],[]
+IN2015KO00599A,Patent IN2015KO00599A ,IN,2015-07-10,"The present invention belongs to the field of human health which measures, monitors and generates a record of the human health condition. This invention is a device that targets monitoring the physical activity based on Internet of Things (IOT). It incorporates body temperature sensor, pedometer, pulse oxymeter, and ECG sensor that continuously monitor the physical activity in real time. The calibrated data received from the sensors are sent to the cloud via gateway (Wi-Fi and GSM service) which are stored as a record that can be referred anytime to study health condition. By continuous measuring, monitoring and reporting the health status the probability of occurrence of mishap could be reduced drastically. Further, the obtained values stored at the cloud are sent to the concerned individual via e-mail, call or SMS under critical circumstances. A display unit periodically highlights the calibrated value at regular interval.",,,,,Partha Pratim Ray Mr,[],[],[],[],[],[]
+IN2015DE01093A,Patent IN2015DE01093A ,IN,2015-06-19,"The objective of the present invention is to design and fabricate an instrument, which would help in producing psychosis like disorder in experimental animals: Another objective of the present invention is to provide ari experimental model for testing medicines useful in the management of psychosis/schizophrenia. Yet another objective of the instant invention is to provide an instrument, which would produce psychosis like disorder in small laboratory, animals due to an unexpected, peculiar but non-fatal situation in experimental animals. Yet another objective of the instant invention is to design an instrument, which would be able to measure the psychotic behavior of mice evoked in response to a terrible sound produced by the passage of iron balls through a pipe. Yet another objective of the instant invention is to design an instrument, which would be useful for studying pathophysiology of psychosis and in exploring mechanism of action of medicines effective in the management of psychosis/schizophrenia. The instrument designed in present invention comprises of a transparent chamber (such as mesh) for visual observation of animal behavior and a container placed below the mesh chamber for accommodating iron balls inserted through a pipe in such a way that these balls do not physically touch the body of mice or produce any kind of physical damage. This, model is based on the principle that mice develop an abnormal state of mind leading to unusual behavior similar to psychosis, when exposed to the terrible sound and consequentially the sight of iron balls.",,,,,Parle Prof Dr Milind,[],[],[],[],[],[]
+IN2014DE00360A,Patent IN2014DE00360A ,IN,2015-08-14,"Microbes greatly influence the nutritional quality of the fermented soybean by generating enzymes, secondary metabolites and breaking down large complex phyto-molecules. In the present invention, the effect of different microbes Bacillus subtilis, Rhizopus oligosporus. Bifidobacterium bifidum and Lactobacillus casaei on nutritional quality of the fermented soybean is investigated with an objective to develop soy based nutraceutical. Initially, soybeans were fermented with B. bifidum; then this fermented mass was re-fermented with co-culture of Bacillus subtilis and Rhizopus oligosporus. This bioprocess resulted higher enzymes levels (126.16 lU/mg lipase, 36.52 lU/mg phytase and 8.52 lU/mg P-glucosidase); maximum menaquinone-7 production (9.3 [ig/g); and aglycone isoflavones (84.64% daidzein, 99.29% genistein, 96.42% glycitein) after 72 hrs of solid state fermentation. The study showed that Co fermentation of soybean with microbe B. bifidum, B. subtilis and R. oligosporus in a particular sequence have the ability to ferment soybeans in a better way than individual microbial strains and produced nutrient rich fermented soybeans.",,,,,Puri Alka,[],[],[],[],[],[]
+IN2015MU00742A,Patent IN2015MU00742A ,IN,2015-04-24,"ABSTRACT Present invention provides conceptualized spatial model for verifying the bearing capacities of the foundation material. This study was carried out using a few points into consideration. The results obtained for other places using these however showed accurate results establishing the accuracy and reliability of his technique. Here 9 parameters were used however more parameters and more of detailed analysis can be carried out to achieve better and more precise results. The important point here to notice is that even when we used very few parameters the results obtained were accurate and consistent. This means that remote sensing and GIS techniques offer first of all very accurate data and secondly the analysis carried out using a remote sensing software is very methodical and correct. We have generated our map using the selected parameters. Similarly, various other maps can be generated by using more factors and their weights. Following invention is described in detail with the help of Figure 1 of sheet 1 showing lithology map, Figure 2 of sheet 2 showing contour of bearing capacity and Figure 3 of sheet 3 showing final weighted overlay map of bearing capacity.",,,,,Bhaskar Katpatal Dr Yashwant,[],[],[],[],[],[]
+IN2014DE01571A,Patent IN2014DE01571A ,IN,2015-06-19,"A requirements definition aiding method causes a designer to become aware of study omissions by visualizing relations between measures and businesses. Measures that become a cause of reform of a business are previously described in relation to targets that change on business. Each business (5001) is previously described by using targets (resource (5002), processing (5003), and rule (5004)) handled on the business. Dependence relations (4101) and exclusive relations (4102) are previously defined as relations between measures. Relations between measures and businesses are extracted by using targets that become common in measures and businesses. A measure that is not assigned to a business, insufficient application of a measure in a dependence relation, and an application contradiction of a measure in an exclusive relation are extracted.",G06Q10/06316,Sequencing of tasks or work,,,Haruhiko Nishiyama,[],"['JPH0689314A', 'US6177942B1', 'JP2001282981A', 'US7188091B2', 'US7302400B2', 'JP4676784B2', 'JP4810890B2', 'US20080065448A1', 'US8073729B2', 'CN102201013B']","['JPH0689314A', 'US6177942B1', 'JP2001282981A', 'US7188091B2', 'US7302400B2', 'JP4676784B2', 'JP4810890B2', 'US20080065448A1', 'US8073729B2', 'CN102201013B']",[],['CN102201013B'],['CN102201013B']
+IN2014CH01651A,Patent IN2014CH01651A ,IN,2015-10-09,"The Invented test Instrument (Figl) is a simple, cost effective, efficient and a user friendly instrument to test the status of Landing Gear Unlocks, Landing Gear Down Locks, Door Unlocks & Door Open Limits. Previously, there were no automated instruments available to test the status of Landing Gear Uplock, Landing Gear Down Lock, Door Uplock & Door Open Limit. The checking was done manually, hence it was time consuming & human errors reduced the accuracy. The Invented test Instrument has mating connectors to connect with the of Landing Gear Unlocks, Landing Gear Down Locks, Door Unlocks & Door Open Limits. The instrument (Fig2) is operated by batteries & the below mentioned status are displayed with LED's •	Landing Gear Uplocks are in uplocked or unlocked condition •	Landing Gear Down Locks are in down locked or released condition •	Door Uplocks are in locked or unlocked condition •	Door Open Limit is attained or not The advantages are as mentioned below, •	Time required to resolve the snag is minimal. It takes only 10 seconds to check each unit. It takes less than 15 minutes to check all Landing Gear uplocks (3 Nos), Landing Gear Down locks (3 Nos) & Door uplocks (12 Nos) & Door Open limits (4Nos) •	No logistics are required (i.e. multimeter, pins with pigtail/sockets with pigtail etc.) •	All human errors are eliminated. •	Single person is enough. With a little training even unskilled employee can do this job accurately. Very easy, just mate the connector and switch on the instrument. The LED's will glow to indicate the Uplock, Downlock & Open Limit status.",,,,,Nanmozhi T,[],[],[],[],[],[]
+IN2014MU00625A,Patent IN2014MU00625A ,IN,2015-09-25,"The present invention relates to the synthesis of molecules showing cytostatic/cytotoxic potential against leukemia. Study relates to a process for the preparation of 1, 4-dihydropyridine derivatives and their anti leukemic activity.",,,,,M V Ramana Dr M,[],[],[],[],[],[]
+IN155484B,Patent IN155484B ,IN,1985-02-09,,C12N7/00,Viruses; Bacteriophages; Compositions thereof; Preparation or purification thereof,,,Jose Leonardo Latorre,"['US5458889A', 'DE4211108A1', 'WO1996000504A1', 'SI3244920T1']",['GB894623A'],"['US5458889A', 'DE4211108A1', 'WO1996000504A1', 'SI3244920T1', 'GB894623A']",[],[],[]
+IN2014MU00031A,Patent IN2014MU00031A ,IN,2015-08-21,"A method for identifying an unknown person based on a static posture of the unknown person includes receiving data of N skeleton joints of the unknown person from a skeleton recording device (104). The method further includes identifying the static posture of the unknown person. The method also includes extracting a static posture feature set corresponding to the static posture of the unknown person, where the static posture feature set is extracted based on the data of the N skeleton joints of the unknown person. The method further includes identifying the unknown person as one from amongst a plurality of known persons based on comparison of the static posture feature set for the unknown person with the training static posture feature sets for the plurality of known persons and corresponding to the static posture.",,,,,Kingshuk Chakravarty,[],[],[],[],[],[]
+IN2014DN05011A,Patent IN2014DN05011A ,IN,2015-07-10,The present invention provides for methods and materials for diagnosing and treating neuromyelitis optica (NMO) and related disorders.,C07K16/18,"Immunoglobulins [IGs], e.g. monoclonal or polyclonal antibodies against material from animals or humans",,,Vanda A Lennon,"['US7101679B2', 'US20070093673A1', 'JP4273235B2', 'US8889102B2', 'JP5117336B2', 'US9891219B2', 'GR1007341B', 'WO2011142901A1', 'DE102011011280A1', 'EP2699256B1', 'WO2013010003A1', 'US20140371132A1', 'JP6265119B2', 'WO2013177116A1', 'CN102898513B', 'US9588115B2', 'US20170080063A1', 'WO2016001030A1', 'CN104698190A', 'US10098935B2', 'WO2017197293A1', 'CN106318974A', 'KR101977843B1', 'WO2018190365A1', 'KR102089042B1', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']","['US37273A', 'US4708713A', 'US5258503A', 'US5614192A', 'US5214136A', 'US5218105A', 'US5741671A', 'US5324638A', 'DE4227695C1', 'US5676644A', 'WO1997017369A2', 'CA2352167A1', 'US20040014087A1', 'US6409726B1', 'US20030072737A1', 'US20040048253A1', 'US7251568B2', 'US6905827B2', 'US7026121B1', 'US20040115629A1', 'ATE336808T1', 'US7101679B2']","['US7101679B2', 'US20070093673A1', 'JP4273235B2', 'US8889102B2', 'JP5117336B2', 'US9891219B2', 'GR1007341B', 'WO2011142901A1', 'DE102011011280A1', 'EP2699256B1', 'WO2013010003A1', 'US20140371132A1', 'JP6265119B2', 'WO2013177116A1', 'CN102898513B', 'US9588115B2', 'US20170080063A1', 'WO2016001030A1', 'CN104698190A', 'US10098935B2', 'WO2017197293A1', 'CN106318974A', 'KR101977843B1', 'WO2018190365A1', 'KR102089042B1', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B', 'US37273A', 'US4708713A', 'US5258503A', 'US5614192A', 'US5214136A', 'US5218105A', 'US5741671A', 'US5324638A', 'DE4227695C1', 'US5676644A', 'WO1997017369A2', 'CA2352167A1', 'US20040014087A1', 'US6409726B1', 'US20030072737A1', 'US20040048253A1', 'US7251568B2', 'US6905827B2', 'US7026121B1', 'US20040115629A1', 'ATE336808T1', 'US7101679B2']","['CN102898513B', 'CN104698190A', 'CN106318974A', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']",[],"['CN102898513B', 'CN104698190A', 'CN106318974A', 'CN108998450A', 'CN110618264A', 'CN111272998A', 'CN115232795B', 'CN113358881B']"
+IN2015MU00743A,Patent IN2015MU00743A ,IN,2015-04-10,"ABSTRACT The transportation network in fact governs the development of any urban area through its activity clusters. The representative sample layouts have been selected and their location and other characteristics have been studied from High Resolution Satellite data. Micro level analysis was performed on these samples and number of parameters affecting road network service quality were identified and worked out. The interaction of these parameters with transportation system and their impacts on transportation system and vice versa are analyzed. Results provide an understanding on road network service quality index and the planning of the transportation network in the further developing areas and also reorganization of the activity clusters. From the present study based on selection of 8 sample layouts spread in different Land Use classes of built up areas within Nagpur Urban area, the Cumulative Road Network Service Quality Index have been proposed. These CRNSQI values are derived completely from satellite data hence presents ease of its generation and analysis. Following invention is described in detail with the help of figure 4 of sheet 3 showing cumulative weights indicating level of serviceability of roads within urban layouts within Nagpur municipal boundary.",,,,,Bhaskar Katpatal Dr Yashwant,[],[],[],[],[],[]
+IN2013MU03749A,Patent IN2013MU03749A ,IN,2015-07-31,"A system or scheme for reducing weight of school bag of students, said system is about rearranging the contents of books used by the students; in the said system it is proposed that the chapters of the books should not be arranged subject wise. It is proposed that the all the chapters from all the books of the standard syllabus should be divided in sections. One particular section should contained chapters from all subjects. For example if a student has to study four subjects with 12 chapters in each subject, it is proposed that there can be four sections. In each section three chapters of each book can be placed. Similarly the notebooks can also be rearranged. The notebooks can be prepared according to requirement in desired number of section. Each section of notebook contains required pages for particular subjects. In this case student has to carry only one section of books and one section of notebook to school. In case those chapters of particular subjects are finished and chapters of another particular subjects are unfinished student has to carry maximum two section of books and two section of notebooks. This will reduce the load to be carried to school and thereby will reduce the weight of schoolbag by 75 to 50 %.",,,,,Tiwari Harish,[],[],[],[],[],[]
+IN2013CH04960A,Patent IN2013CH04960A ,IN,2015-05-29,"A wireless surgical loupe enables a user to use the wireless loupe to perform a procedure, transmit information acquired by the wireless loupe and display patient information on a wireless loupe display. The transmitted information is able to be used to aid the operating room procedure, enhance education and be recorded for later use.",,,,,Corporation Sony,[],[],[],[],[],[]
+IN2013MU03355A,Patent IN2013MU03355A ,IN,2015-07-17,"Glass-fiber reinforced concrete (GFRC) is a material made of a cementitious matrix composed of cement, sand, water and admixtures, in which short length glass fibers are dispersed. In this study trial tests for concrete without and with alkali-resistant (AR) glass fibers are conducted to indicate the differences in compressive strength by using specimens of standard size cubes. GFRC is a form of concrete that uses fine sand, cement. AR-glass fiber, water, and other admixtures. It is mainly used in exterior building facade panels and as architectural precast concrete. This material is ideally suitable in making shapes on the front of any building and it is less dense than steel.",,,,,Shonkkumar Purohit,[],[],[],[],[],[]
+IN2013MU03342A,Patent IN2013MU03342A ,IN,2015-07-17,"The method having a purpose of reducing analysis time, increasing reliability via higher resolution with very high pressure due to smaller particles, sensitivity and selectivity as well as economical method by reducing solvent consumption, Reverse Phase-Ultra performance Liquid Chromatography (RP-UPLC) is most promising advancement in a world of chromatography. Being a patented drug, Prenoxdiazine HC1 has not any published analytical background. In this novel research work, a new gradient reverse phase UPLC method was developed for the same in bulk form. Forced degradation study was carried out as per International Conference on Harmonization (ICH) guideline and a newly developed method is applicable to degradation analysis of drug. A chromatographic separation of drug as well as its degradants was achieved using Waters acquity CSH, 2.1 x 100mm, 1.7μm C18 column with gradient of phosphate buffer pH 7.0 and acetonitrile. Drug and degradants were monitored at detection wavelength of 220 nm, the flow rate was 0.4 ml/min, injection volume was 5 μl and temperature of column and auto sampler compartments were ambient. Retention time of drug was about 2.9 mins and relative retention time of common degradant in all stressed conditions is 0.92. The resolution of drug and degradant was greater than 1.7 in all cases. At higher stressed conditions, drug degrades into more fragments as compare to one degradant n optimized stressed condition. Drug shows different solution stability in two different diluents that are acetonitrile and methanol. A developed method was validated as per ICH guideline using validation parameters like precision, linearity and range, specificity, robustness, solution stability and filter compatibility. Results of validation were found satisfactorily within specified acceptance criteria. Forced degradation studies demonstrated the stability indicating power of the UPLC method.",,,,,Akhil Nagar,[],[],[],[],[],[]
+IN2013MU03346A,Patent IN2013MU03346A ,IN,2015-07-17,"Out of the several techniques available for controlling vibrations in a structure, the concept of using tuned mass damper (TMD) or visco-elaslic damper is a newer one. The effectiveness of using TMD for controlling vibrations of a structure is investigated. At first a numerical algorithm was developed to investigate the response of a shear building fitted with a TMD. Then another numerical algorithm was developed to investigate the response of a 2D frame model fitted witlra TMD. A total of three loading conditions were applied at the base of the structure. From the study it was found that. TMD can be effectively used for vibration control of structures. TMD was more effective when damping ratio of the structure is less. Gradually increasing the mass ratio of the TMD. it was observed that, a gradual decrease in the displacement of the structure look place.",,,,,Amit Kumar Chauhan,[],[],[],[],[],[]
+IN2013DE03107A,Patent IN2013DE03107A ,IN,2015-04-24,"The aim of the present investigation was to develop niosomal gel of itraconazole for the treatment of onychomycosis and to evaluate niosomal gel as a vehicle for dermal drug delivery.Itraconazole is a therapeutically important triazole-derivedantifungal agent that has been widely used in treatment of Onychomycosis which is the fungal infection of the toenails and fingernails. The nail plate may be abarrier that prevents effective topical treatment of ungual disorders. In this study, ITZ loaded niosome formulations and also gel forms of these formulations were prepared. The formulationswere characterized by drug entrapment efficiency, vesicle size and then optimized formulations were evaluated byin vitrodrug release. The in vitro skin permeation and nail permeation studies were also performed to examine the effect of formulations and experimental conditions on skin and nail surface. As a result, niosomes formulations of span40 and span 60 molar ratio of 7:3 can serve as efficient formulations for ungual application of ITZ. In conclusion , the results of the nail permeation studiessuggested that the optimized span40 niosomal gel formulationbetter permeation through the nail plate than the optimized span 60 formulation and hence can be an effective delivery system for the treatment of onychomycosis",,,,,Nagpal Sahil,[],[],[],[],[],[]
+IN2013MU03112A,Patent IN2013MU03112A ,IN,2015-07-17,"A portable, low cost, safe and simple system is provided for simulating arc welding that makes training in welding technology motivating and interesting for a target semi-literate user. The system comprises a simulated welding torch including a simulated consumable welding rod in the form of an elongated threaded rod that serves as a rack. A reversible stepper motor serves as a pinion and engages with the rod to cause movement of the rod towards or away from a work piece. Two cameras in the simulated work space measures welding parameters including location of the tip relative to the simulated job. A computer generates control signals based on the measured parameters to control the stepper motor to drive the welding rod towards the work piece at the beginning of the simulated weld process and away from the work piece during the simulated weld process to simulate consumption of the welding rod.",,,,,Muralitharan V,[],[],[],[],[],[]
+IN2013MU02438A,Patent IN2013MU02438A ,IN,2015-06-19,"Disclosed is a mechanical interlock device for interlocking switchinu devices. The mechanical interlock device is provided with an enable/disable position control. The enable/disable feature of the mechanical interlock device enables the customer to use single device without mechanical interlocking feature'to be added externally. The mechanical interlock device is inbuilt part of any standard switching device which saves time, money involved in training labor and the assembly time.",,,,,Pradeep Jambhorkar Praptee,[],[],[],[],[],[]
+IN2013CH02023A,Patent IN2013CH02023A ,IN,2015-08-07,"System and method for training of regional ophthalmic anesthesia, the system includes at least one electrically conductive extraocular muscle structure, a data acquisition system (DAS), a syringe having a needle and a graphical user interface (GUI). The DAS is provided in communication with the syringe and eye structure, and configured to excite the needle of the syringe and locate the syringe having needle based on at least one of capacitance or resistance between the syringe having needle and the extraocular muscle structure. Further, the GUI receives data from the DAS and display the location of the syringe by suitable means. A method for locating a syringe having needle includes providing an electrically conductive eye structure, providing the syringe with an electrical signal and determining the location of syringe having needle based on at least one of the capacitance or resistance between the syringe having needle and the eye structure. FIG. 1",,,,,Mukherjee Biswarup,[],[],[],[],[],[]
+IN2013CH01943A,Patent IN2013CH01943A ,IN,2015-08-07,"A typical trainer aircraft carries close to 5-10 training sorties each day. After each flight a turnaround inspection has to be carried out and also in case certain exceedances/ observations are given by flight crew, the same needs to be analyzed manually in detail using the aircraft SSFDR(Solid State Flight Data Recorder) data (e.g. data recorded by the black box). This leads to significant delays in turnaround of the aircraft and also during manual analysis of the data, key exceedances / anomalies are missed or misinterpreted. The data download also requires the aircraft to be powered ON externally or using aircraft battery so that SSFDR system is powered up and data download can be carried out. This also offers challenge in terms of accessing the cockpit by the ground crew for powering up of aircraft, requirement of ground trolley, junction module, AC mains, etc. All this can be eliminated with a single system which is capable of externally powering ON the SSFDR system, downloading the data and analyzing the same in a single step in order to determine the GO/NO-GO for next sortie of the aircraft. If the event of an incident on the aircraft following which it is not possible to power ON the aircraft, this system can be used to power ON the unit for performing the data download & report the possible exceedance occurred. This will be useful for incident/crash investigation. Post data download the system deploys analytical and statistical methods to assess the entire flight data for unusual occurrences, system failures, system performance and also for heavy landings. The ground crew can perform the entire operation using the standalone package within 15 minutes and arrive at a GO/NO-GO for next flight decision with the aid of the Portable Aircraft Turn-Around and Exceedance Identification System (PATEI).",,,,,T Ananda Krishna V,[],[],[],[],[],[]
+IN2012DE03808A,Patent IN2012DE03808A ,IN,2015-06-19,"Data provides a factual base to decision making process for any system or organization. It is essential to formulate and validate working assumptions about any procedure. Data collection helps in identifying and generating objective information about any procedure, instead of merely suggesting subjective opinions. To collect uniform, real, believable and unbiased data there is a need of data collection plan to develop standardized and consistent technique of data collection. Generally the formal declaration of any data collection plan is missing from data collection mechanisms hence the collected data is not always believable. Data collected using primitive data collection techniques like interviews, questionnaires and observations may get affected by the level of understanding and expertise of the data collector. Moreover the expenditure involved in conducting any surveyor interview cannot be ignored keeping in view a small or medium sized organization. Here we have suggested a technique that can be used to provide synthetic estimates to facilitate any decision making process. As it generates information from synthetically generated data sets hence a decision maker is free to redefine the data fields and/or questions for the data collection/ generation procedure he has chosen. The technique has the capability to provide initial estimates with negligible expenditure and with noticeable accuracy. In the case study conducted during the course of this research, the proposed technique predicted the results with accuracy from 68 to 84 Percent.",,,,,Singh Jaiteg,[],[],[],[],[],[]
+IN2012CH02733A,Patent IN2012CH02733A ,IN,2015-10-02,"7.Abstract Various waste materials such as industrial, agricultural and domestic waste substances are accumulated everywhere throughout the country and a wide range of microorganism including fungi, bacteria and cyanobacteria are available for degradation of waste and this degradable waste material can be used as useful products in different ways. Although the research publications were reported on degradation of lignocellulosic materials such as coir waste, the reports on cyanobacterial degradation are scanty. Cultivation of cyanobacteria is inexpensive when compared to other microorganism. Hence, recycling the waste by using cyanobacteria in order to get pollution free environment and useful products from coir pith will be an economical and purposeful one. Thus this work was mainly based on utilizing coir pith as source for biofertilizer production using cyanobacterium Phormidium sp. BDU 5 .Experiments were carried out in Coriandrum sativum L. and Vigna ungiculata L to study the growth promoting ability of coir pith based cyanobacterial biofertilizer as basal and foliar fertilizer. The morphometric and yield of Coriandrum sativum L. and Vigna ungiculata L. were observed in comparison with control, Basal, foliar and combination of basal and foliar application. Results indicated that coir pith based cyanobacterial basal and foliar spray showed effective variations on Coriandrum sativum L. when compared to other treatments and control. It is interesting to note that the biomass content was found to be increased in basal with foliar spray treatment.The morphological and yield parameters indicated that coir pith based cyanobacterial basal and foliar spray showed effective variations on Vigna ungiculata L.",,,,,Malliga Perumal,[],[],[],[],[],[]
+IN2012DN02768A,Patent IN2012DN02768A ,IN,2015-09-18,"An information sharing system includes a database, an application module, a supervisor module, and a subordinate module. The database stores user data associated with a supervisor and a subordinate, and static data to be shared by them. The static data is associated with a topic for training. The application module is configured to communicate with the database. The su¬pervisor module is configured to enable the supervisor to communicate with the application module and the subordinate module. The subordinate module is configured to enable the subordinate to communicate with the supervisor, enable the subordinate to communicate with the application module via handwritten input, audio input, video input, and image input, provide an electronic prompt to the subordinate that is triggered by the static data, and receive an electronic input comprising at least one of handwritten input, audio input, video input, and image input from the subordinate responsive to the prompt.",,,,,Sowmya Parthasarathy,[],[],[],[],[],[]
+IN192069B,Patent IN192069B ,IN,2004-02-14,,,,,,Shilpi Mittal,[],[],[],[],[],[]
+IN188408B,Patent IN188408B ,IN,2002-09-21,,,,,,Kumar Pradip,[],[],[],[],[],[]
+IN180023B,Patent IN180023B ,IN,1998-01-10,,,,,,Lodewyk Jacobus Mienie,[],[],[],[],[],[]
+IN186538B,Patent IN186538B ,IN,2001-09-29,,,,,,Satish Kumar Gupta,[],[],[],[],[],[]
+IN186852B,Patent IN186852B ,IN,2001-11-24,,,,,,Kumar Datta Rajat,[],[],[],[],[],[]
+IN192883B,Patent IN192883B ,IN,2004-05-29,,,,,,Philip Tomy,[],[],[],[],[],[]
+IN2014DE00123A,Patent IN2014DE00123A ,IN,2015-07-17,"A herbal formulation to ameliorate Fluoride toxicity in animals was developed by mixing Tamarind (Tamarindus indica) fruit pulp, drum stick (Moringa oleifera) unripe pods and whole oat grain powder in the ratio of 20:4:1 and molasses was used as vehicle to make it into pallet. The product was tested in experimental condition for its potential to reduce body fluoride burden by estimating fluoride concentration in serum, urine and bone. The safety of the formulation was ascertained after scientific validation of acute and chronic toxicity in rat model. There after the toxic effect of this formulation was studied in healthy calves @ 200mgl kg b.wt, daily for 90 days. Various parameters such as haematological changes, vital organ functions like heart, liver, kidney etc were evaluated. No evidence of toxicity could be detected at dosage 200 mg/kg orally for 90 days. There after the product was tried for its ameliorative potential in the field clinical cases of fluorosis in cattle and buffalo at the dose rate of 200 mg / Kg b. wt daily for 90 days. A total of Forty eight cattle and buffaloes having visible clinical lesions and elevated fluoride levels in serum (10.40ppm) and urine ((26.0 ppm) were selected for this study. The product significantly (p<0.001) reduced serum fluoride burden and increased excretion of Fluoride in urine. There was significant improvement of general health, production and performance of animals of treatment group. No adverse effect of the formulation could be detected during 3 months observation period. The cross validation studies of the formulation were performed at two fluoride endemic areas of Rajasthan viz. Singpur and Chittaurgargh areas of Rajasthan. The cross validation report of this product documented 58.81% reduction of serum fluoride concentration in cattle and buffaloes at day 90 post treatment along with marked improvement in clinical score and other parameters. More ever, the administration of this herbal product to cattle and buffalo for 90 days did not reveal any toxic effect of the formulation on the vital organs especially liver and kidney.",,,,,Sahadeb Dr Dey,[],[],[],[],[],[]
+IN167214B,Patent IN167214B ,IN,1990-09-22,"In a weapons training simulator, laser radiation is output via optics (28) to simulate the firing of a round, and reflected radiation received via a conjugate path to assess the effectiveness of the shot. In the event of a miss a scan of the target area is required to provide fall of shot information. The scan is performed by controlled movement of the output faces of fibre optics (23, 24, 25) flexibly coupling to fixed sources (20, 21. 22) and of the input face of a fibre optic (200) flexibly coupling to a fixed detector (201). The problem of the bulk and inertia of prior art systems is improved by the remote location of lasers, drive and control, which may be conveniently separated for service or replacement without disturbing the optically aligned input and output faces. A further improvement is that vertically aligned multiple sources may be employed without undue weight penalty, yielding elevation information from a lateral scan.",F41G3/265,Teaching or practice apparatus for gun-aiming or gun-laying using a light emitting device for simulating the firing of a gun or the trajectory of a projectile with means for selecting or varying the shape or the direction of the emitted beam,,,Wencesles Laciny Richard,"['GB2241815A', 'WO1999010700A1', 'US20040014010A1', 'JP2004537701A', 'AU2001237945A1', 'US6386879B1', 'US6575753B2', 'AU2001268330A1', 'AU2001296051A1', 'WO2002101318A2', 'US20040033472A1', 'US20050153262A1', 'ATE382141T1', 'US20070190495A1', 'US20100275491A1', 'US20110003270A1', 'TWI394506B', 'US9546548B2', 'EP2361393B1', 'US8204094B2', 'US8924158B2', 'US9163894B1', 'US9182189B2', 'US11703297B2']","['GB1228144A', 'GB1228143A', 'GB1439612A', 'BE793514A', 'GB1451192A', 'DE2429006C3', 'US4063368A', 'DE2727841C2', 'DE2754109B1', 'GB2030272B', 'GB8309229D0', 'GB2147693B']","['GB2241815A', 'WO1999010700A1', 'US20040014010A1', 'JP2004537701A', 'AU2001237945A1', 'US6386879B1', 'US6575753B2', 'AU2001268330A1', 'AU2001296051A1', 'WO2002101318A2', 'US20040033472A1', 'US20050153262A1', 'ATE382141T1', 'US20070190495A1', 'US20100275491A1', 'US20110003270A1', 'TWI394506B', 'US9546548B2', 'EP2361393B1', 'US8204094B2', 'US8924158B2', 'US9163894B1', 'US9182189B2', 'US11703297B2', 'GB1228144A', 'GB1228143A', 'GB1439612A', 'BE793514A', 'GB1451192A', 'DE2429006C3', 'US4063368A', 'DE2727841C2', 'DE2754109B1', 'GB2030272B', 'GB8309229D0', 'GB2147693B']",[],[],[]