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--- |
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license: apache-2.0 |
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--- |
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# PicoDet_layout_1x_table |
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## Introduction |
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A high-efficiency layout area localization model trained on a self-built dataset using PicoDet-1x, capable of detecting table regions. The key metrics are as follow: |
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| Model| mAP(0.5) (%) | |
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| --- | --- | |
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|PicoDet_layout_1x_table | 97.5 | |
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## Quick Start |
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### Installation |
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1. PaddlePaddle |
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Please refer to the following commands to install PaddlePaddle using pip: |
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```bash |
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# for CUDA11.8 |
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python -m pip install paddlepaddle-gpu==3.0.0 -i https://www.paddlepaddle.org.cn/packages/stable/cu118/ |
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# for CUDA12.6 |
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python -m pip install paddlepaddle-gpu==3.0.0 -i https://www.paddlepaddle.org.cn/packages/stable/cu126/ |
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# for CPU |
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python -m pip install paddlepaddle==3.0.0 -i https://www.paddlepaddle.org.cn/packages/stable/cpu/ |
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``` |
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For details about PaddlePaddle installation, please refer to the [PaddlePaddle official website](https://www.paddlepaddle.org.cn/en/install/quick). |
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2. PaddleOCR |
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Install the latest version of the PaddleOCR inference package from PyPI: |
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```bash |
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python -m pip install paddleocr |
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``` |
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### Model Usage |
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You can quickly experience the functionality with a single command: |
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```bash |
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paddleocr layout_detection \ |
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--model_name PicoDet_layout_1x_table \ |
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-i https://cdn-uploads.huggingface.co/production/uploads/63d7b8ee07cd1aa3c49a2026/N5C68HPVAI-xQAWTxpbA6.jpeg |
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``` |
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You can also integrate the model inference of the layout detection module into your project. Before running the following code, please download the sample image to your local machine. |
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```python |
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from paddleocr import LayoutDetection |
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model = LayoutDetection(model_name="PicoDet_layout_1x_table") |
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output = model.predict("N5C68HPVAI-xQAWTxpbA6.jpeg", batch_size=1, layout_nms=True) |
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for res in output: |
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res.print() |
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res.save_to_img(save_path="./output/") |
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res.save_to_json(save_path="./output/res.json") |
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``` |
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After running, the obtained result is as follows: |
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```json |
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{'res': {'input_path': '/root/.paddlex/predict_input/N5C68HPVAI-xQAWTxpbA6.jpeg', 'page_index': None, 'boxes': [{'cls_id': 0, 'label': 'Table', 'score': 0.9617661237716675, 'coordinate': [435.82446, 106.01748, 665.04346, 316.21014]}, {'cls_id': 0, 'label': 'Table', 'score': 0.9583022594451904, 'coordinate': [72.52834, 106.46287, 322.751, 301.454]}]}} |
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``` |
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The visualized image is as follows: |
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For details about usage command and descriptions of parameters, please refer to the [Document](https://paddlepaddle.github.io/PaddleOCR/latest/en/version3.x/module_usage/layout_detection.html#iii-quick-integration). |
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### Pipeline Usage |
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The ability of a single model is limited. But the pipeline consists of several models can provide more capacity to resolve difficult problems in real-world scenarios. |
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#### PP-TableMagic (table_recognition_v2) |
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The General Table Recognition v2 pipeline (PP-TableMagic) is designed to tackle table recognition tasks, identifying tables in images and outputting them in HTML format. PP-TableMagic includes the following 8 modules: |
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* Table Structure Recognition Module |
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* Table Classification Module |
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* Table Cell Detection Module |
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* Text Detection Module |
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* Text Recognition Module |
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* Layout Region Detection Module (optional) |
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* Document Image Orientation Classification Module (optional) |
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* Text Image Unwarping Module (optional) |
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You can quickly experience the PP-TableMagic pipeline with a single command. |
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```bash |
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paddleocr table_recognition_v2 -i https://cdn-uploads.huggingface.co/production/uploads/63d7b8ee07cd1aa3c49a2026/tuY1zoUdZsL6-9yGG0MpU.jpeg \ |
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--layout_detection_model_name PicoDet_layout_1x_table \ |
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--use_doc_orientation_classify False \ |
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--use_doc_unwarping False \ |
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--save_path ./output \ |
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--device gpu:0 |
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``` |
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If save_path is specified, the visualization results will be saved under `save_path`. |
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The command-line method is for quick experience. For project integration, also only a few codes are needed as well: |
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```python |
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from paddleocr import TableRecognitionPipelineV2 |
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pipeline = TableRecognitionPipelineV2( |
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layout_detection_model_name=PicoDet_layout_1x_table, |
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use_doc_orientation_classify=False, # Use use_doc_orientation_classify to enable/disable document orientation classification model |
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use_doc_unwarping=False, # Use use_doc_unwarping to enable/disable document unwarping module |
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device="gpu:0", # Use device to specify GPU for model inference |
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) |
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output = pipeline.predict("tuY1zoUdZsL6-9yGG0MpU.jpeg") |
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for res in output: |
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res.print() ## Print the predicted structured output |
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res.save_to_img("./output/") |
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res.save_to_xlsx("./output/") |
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res.save_to_html("./output/") |
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res.save_to_json("./output/") |
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``` |
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The default model used in pipeline is `PP-DocLayout-L`, so it is needed that specifing to `PicoDet_layout_1x_table` by argument `layout_detection_model_name`. And you can also use the local model file by argument `layout_detection_model_dir`. For details about usage command and descriptions of parameters, please refer to the [Document](https://paddlepaddle.github.io/PaddleOCR/main/en/version3.x/pipeline_usage/table_recognition_v2.html#2-quick-start). |
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## Links |
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[PaddleOCR Repo](https://github.com/paddlepaddle/paddleocr) |
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[PaddleOCR Documentation](https://paddlepaddle.github.io/PaddleOCR/latest/en/index.html) |
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