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---
tags:
- ultralyticsplus
- yolov8
- ultralytics
- yolo
- computer-vision
- object-detection
- pytorch
library_name: ultralytics
library_version: 8.0.43
inference: true
model-index:
- name: foduucom/table-detection-and-extraction
results:
- task:
type: object-detection
metrics:
- type: precision
value: 0.743
language:
- en
metrics:
- accuracy
pipeline_tag: object-detection
---
# Model Card for YOLOv8 object detection
## Model Summary
The YOLOv8 object Detection model is an object detection model based on the YOLO (You Only Look Once) framework. It is designed to detect object, whether they are object detect, in images. The model has been fine-tuned on a vast dataset and achieved high accuracy in detecting tables and distinguishing between object detect ones.
## Model Details
### Model Description
The YOLOv8 Object Detection model serves as a versatile solution for precisely identifying object detect within images, whether they exhibit a object detect. Notably, this model's capabilities extend beyond mere detection – it plays a crucial role for object detection. By employing advanced techniques such as object detection.
We invite you to explore the potential of this model and its object detection capabilities. For those interested in harnessing its power or seeking further collaboration, we encourage you to reach out to us at [email protected]. Whether you require assistance, customization, or have innovative ideas, our collaborative approach is geared towards addressing your unique challenges. Additionally, you can actively engage with our vibrant community section for valuable insights and collective problem-solving. Your input drives our continuous improvement, as we collectively pave the way towards enhanced object detection.
- **Developed by:** FODUU AI
- **Model type:** Object Detection
- **Task:** Object Detection (object detection)
Furthermore, the YOLOv8 Detection model is limited to object detectionsetup environment python setup.py
yolov8 object detection model alone. It is a versatile tool that contributes to the processing of structured image data. By utilizing advanced box techniques, the model empowers users to isolate object within the image visual data. What sets this model apart is its seamless integration with object detection technology. The combination of box information allows for precise object detection from the data. This comprehensive approach streamlines the process of information retrieval from image data.
User collaboration is actively encouraged to enrich the model's capabilities. By contributing table images of different designs and types, users play a pivotal role in enhancing the model's ability to detect a diverse range of object accurately. Community participation can be facilitated through our platform or by reaching out to us at [email protected]. We value collaborative efforts that drive continuous improvement and innovation in object detection.
### Supported Labels
YOLOv8
```
['box', 'object detect']
```
## Uses
### Direct Use
The YOLOv8 and opencv for object Detection model can be directly used for detecting object from images, whether they are bordered box.
### Downstream Use
The model can also be fine-tuned for specific object detection tasks or integrated into larger applications for distance measure, image-based object detection, and other related fields.
### Limitations:
Performance Dependence on Training Data: The model's performance heavily relies on the quality, quantity, and diversity of the training data. Inaccuracies in object detection and distance estimation may arise when encountering object types, lighting conditions, or environments that significantly differ from the training data.
Complex Object Arrangements: The model's accuracy may decrease when detecting objects within cluttered or complex scenes. It might struggle to accurately estimate distances for objects that are partially occluded or located behind other objects.
### Biases:
Training Data Bias: Biases present in the training data, such as object type distribution, camera viewpoints, and lighting conditions, could lead to differential performance across various scenarios. For instance, the model might exhibit better accuracy for object types more heavily represented in the training data.
### Risks:
Privacy Concerns: The model processes images, potentially capturing sensitive or private information. Deploying the model in contexts where privacy is a concern may inadvertently expose sensitive data, raising ethical and legal issues.
Safety Considerations: Users should exercise caution when relying solely on the model's outputs for critical decision-making. The model may not account for all safety hazards, obstacles, or dynamic environmental changes that could impact real-time object detect.
### Recommendations
Users should be informed about the model's limitations and potential biases. Further testing and validation are advised for specific use cases to evaluate its performance accurately.
Load model and perform prediction:
## How to Get Started with the Model
To get started with the YOLOv8s object Detection and Classification model, follow these steps:
- Load model and perform prediction:
```python
from ultralyticsplus import YOLO, render_result
# load model
model = YOLO('foduucom/thermal-image-object-detection')
# set model parameters
model.overrides['conf'] = 0.25 # NMS confidence threshold
model.overrides['iou'] = 0.45 # NMS IoU threshold
model.overrides['agnostic_nms'] = False # NMS class-agnostic
model.overrides['max_det'] = 1000 # maximum number of detections per image
# set image
image = '/path/to/your/document/images'
# perform inference
results = model.predict(image)
# observe results
print(results[0].boxes)
render = render_result(model=model, image=image, result=results[0])
render.show()
```
### Compute Infrastructure
#### Hardware
NVIDIA GeForce RTX 3060 card
#### Software
The model was trained and fine-tuned using a Jupyter Notebook environment.
## Model Card Contact
For inquiries and contributions, please contact us at [email protected].
```bibtex
@ModelCard{
author = {Nehul Agrawal and
Rahul parihar},
title = {YOLOv8 object Detection},
year = {2023}
}
```