English | [简体中文](README_ch.md) # Key Information Extraction (KIE) - [1. Introduction](#1-introduction) - [2. Performance](#2-performance) - [3. Visualization](#3-visualization) - [3.1 SER](#31-ser) - [3.2 RE](#32-re) - [4. Usage](#4-usage) - [4.1 Prepare for the environment](#41-prepare-for-the-environment) - [4.2 Quick start](#42-quick-start) - [4.3 More](#43-more) - [5. Reference](#5-reference) - [6. License](#6-license) ## 1. Introduction Key information extraction (KIE) refers to extracting key information from text or images. As downstream task of OCR, the key information extraction task of document image has many practical application scenarios, such as form recognition, ticket information extraction, ID card information extraction, etc. PP-Structure conducts research based on the LayoutXLM multi-modal, and proposes the VI-LayoutXLM, which gets rid of visual features when finetuning the downstream tasks. An textline sorting method is also utilized to fit in reading order. What's more, UDML knowledge distillation is used for higher accuracy. Finally, the accuracy and inference speed of VI-LayoutXLM surpass those of LayoutXLM. The main features of the key information extraction module in PP-Structure are as follows. - Integrate multi-modal methods such as [LayoutXLM](https://arxiv.org/pdf/2104.08836.pdf), VI-LayoutXLM, and PP-OCR inference engine. - Supports Semantic Entity Recognition (SER) and Relation Extraction (RE) tasks based on multimodal methods. Based on the SER task, the text recognition and classification in the image can be completed; based on the RE task, the relationship extraction of the text content in the image can be completed, such as judging the problem pair (pair). - Supports custom training for SER tasks and RE tasks. - Supports end-to-end system prediction and evaluation of OCR+SER. - Supports end-to-end system prediction of OCR+SER+RE. - Support SER model export and inference using PaddleInference. ## 2. Performance We evaluate the methods on the Chinese dataset of [XFUND](https://github.com/doc-analysis/XFUND), and the performance is as follows |Model | Backbone | Task | Config file | Hmean | Inference time (ms) | Download link| | --- | --- | --- | --- | --- | --- | --- | |VI-LayoutXLM| VI-LayoutXLM-base | SER | [ser_vi_layoutxlm_xfund_zh_udml.yml](../../configs/kie/vi_layoutxlm/ser_vi_layoutxlm_xfund_zh_udml.yml)|**93.19%**| 15.49|[trained model](https://paddleocr.bj.bcebos.com/ppstructure/models/vi_layoutxlm/ser_vi_layoutxlm_xfund_pretrained.tar)| |LayoutXLM| LayoutXLM-base | SER | [ser_layoutxlm_xfund_zh.yml](../../configs/kie/layoutlm_series/ser_layoutxlm_xfund_zh.yml)|90.38%| 19.49 | [trained model](https://paddleocr.bj.bcebos.com/pplayout/ser_LayoutXLM_xfun_zh.tar)| |VI-LayoutXLM| VI-LayoutXLM-base | RE | [re_vi_layoutxlm_xfund_zh_udml.yml](../../configs/kie/vi_layoutxlm/re_vi_layoutxlm_xfund_zh_udml.yml)|**83.92%**| 15.49|[trained model](https://paddleocr.bj.bcebos.com/ppstructure/models/vi_layoutxlm/re_vi_layoutxlm_xfund_pretrained.tar)| |LayoutXLM| LayoutXLM-base | RE | [re_layoutxlm_xfund_zh.yml](../../configs/kie/layoutlm_series/re_layoutxlm_xfund_zh.yml)|74.83%| 19.49|[trained model](https://paddleocr.bj.bcebos.com/pplayout/re_LayoutXLM_xfun_zh.tar)| * Note:Inference environment:V100 GPU + cuda10.2 + cudnn8.1.1 + TensorRT 7.2.3.4,tested using fp16. For more KIE models in PaddleOCR, please refer to [KIE model zoo](../../doc/doc_en/algorithm_overview_en.md). ## 3. Visualization There are two main solutions to the key information extraction task based on VI-LayoutXLM series model. (1) Text detection + text recognition + semantic entity recognition (SER) (2) Text detection + text recognition + semantic entity recognition (SER) + relationship extraction (RE) The following images are demo results of the SER and RE models. For more detailed introduction to the above solutions, please refer to [KIE Guide](./how_to_do_kie.md). ### 3.1 SER Demo results for SER task are as follows.
**Note:** test pictures are from [xfund dataset](https://github.com/doc-analysis/XFUND), [invoice dataset](https://aistudio.baidu.com/aistudio/datasetdetail/165561) and a composite ID card dataset. Boxes of different colors in the image represent different categories. The invoice and application form images have three categories: `request`, `answer` and `header`. The `question` and 'answer' can be used to extract the relationship. For the ID card image, the mdoel can be directly identify the key information such as `name`, `gender`, `nationality`, so that the subsequent relationship extraction process is not required, and the key information extraction task can be completed using only on model. ### 3.2 RE Demo results for RE task are as follows.
Red boxes are questions, blue boxes are answers. The green lines means the two conected objects are a pair. ## 4. Usage ### 4.1 Prepare for the environment Use the following command to install KIE dependencies. ```bash git clone https://github.com/PaddlePaddle/PaddleOCR.git cd PaddleOCR pip install -r requirements.txt pip install -r ppstructure/kie/requirements.txt # 安装PaddleOCR引擎用于预测 pip install paddleocr -U ``` The visualized results of SER are saved in the `./output` folder by default. Examples of results are as follows.
### 4.2 Quick start Here we use XFUND dataset to quickly experience the SER model and RE model. #### 4.2.1 Prepare for the dataset ```bash mkdir train_data cd train_data # download and uncompress the dataset wget https://paddleocr.bj.bcebos.com/ppstructure/dataset/XFUND.tar && tar -xf XFUND.tar cd .. ``` #### 4.2.2 Predict images using the trained model Use the following command to download the models. ```bash mkdir pretrained_model cd pretrained_model # download and uncompress the SER trained model wget https://paddleocr.bj.bcebos.com/ppstructure/models/vi_layoutxlm/ser_vi_layoutxlm_xfund_pretrained.tar && tar -xf ser_vi_layoutxlm_xfund_pretrained.tar # download and uncompress the RE trained model wget https://paddleocr.bj.bcebos.com/ppstructure/models/vi_layoutxlm/re_vi_layoutxlm_xfund_pretrained.tar && tar -xf re_vi_layoutxlm_xfund_pretrained.tar ``` If you want to use OCR engine to obtain end-to-end prediction results, you can use the following command to predict. ```bash # just predict using SER trained model python3 tools/infer_kie_token_ser.py \ -c configs/kie/vi_layoutxlm/ser_vi_layoutxlm_xfund_zh.yml \ -o Architecture.Backbone.checkpoints=./pretrained_model/ser_vi_layoutxlm_xfund_pretrained/best_accuracy \ Global.infer_img=./ppstructure/docs/kie/input/zh_val_42.jpg # predict using SER and RE trained model at the same time python3 ./tools/infer_kie_token_ser_re.py \ -c configs/kie/vi_layoutxlm/re_vi_layoutxlm_xfund_zh.yml \ -o Architecture.Backbone.checkpoints=./pretrained_model/re_vi_layoutxlm_xfund_pretrained/best_accuracy \ Global.infer_img=./train_data/XFUND/zh_val/image/zh_val_42.jpg \ -c_ser configs/kie/vi_layoutxlm/ser_vi_layoutxlm_xfund_zh.yml \ -o_ser Architecture.Backbone.checkpoints=./pretrained_model/ser_vi_layoutxlm_xfund_pretrained/best_accuracy ``` The visual result images and the predicted text file will be saved in the `Global.save_res_path` directory. If you want to load the text detection and recognition results collected before, you can use the following command to predict. ```bash # just predict using SER trained model python3 tools/infer_kie_token_ser.py \ -c configs/kie/vi_layoutxlm/ser_vi_layoutxlm_xfund_zh.yml \ -o Architecture.Backbone.checkpoints=./pretrained_model/ser_vi_layoutxlm_xfund_pretrained/best_accuracy \ Global.infer_img=./train_data/XFUND/zh_val/val.json \ Global.infer_mode=False # predict using SER and RE trained model at the same time python3 ./tools/infer_kie_token_ser_re.py \ -c configs/kie/vi_layoutxlm/re_vi_layoutxlm_xfund_zh.yml \ -o Architecture.Backbone.checkpoints=./pretrained_model/re_vi_layoutxlm_xfund_pretrained/best_accuracy \ Global.infer_img=./train_data/XFUND/zh_val/val.json \ Global.infer_mode=False \ -c_ser configs/kie/vi_layoutxlm/ser_vi_layoutxlm_xfund_zh.yml \ -o_ser Architecture.Backbone.checkpoints=./pretrained_model/ser_vi_layoutxlm_xfund_pretrained/best_accuracy ``` #### 4.2.3 Inference using PaddleInference At present, only SER model supports inference using PaddleInference. Firstly, download the inference SER inference model. ```bash mkdir inference cd inference wget https://paddleocr.bj.bcebos.com/ppstructure/models/vi_layoutxlm/ser_vi_layoutxlm_xfund_infer.tar && tar -xf ser_vi_layoutxlm_xfund_infer.tar ``` Use the following command for inference. ```bash cd ppstructure python3 kie/predict_kie_token_ser.py \ --kie_algorithm=LayoutXLM \ --ser_model_dir=../inference/ser_vi_layoutxlm_xfund_infer \ --image_dir=./docs/kie/input/zh_val_42.jpg \ --ser_dict_path=../train_data/XFUND/class_list_xfun.txt \ --vis_font_path=../doc/fonts/simfang.ttf \ --ocr_order_method="tb-yx" ``` The visual results and text file will be saved in directory `output`. ### 4.3 More For training, evaluation and inference tutorial for KIE models, please refer to [KIE doc](../../doc/doc_en/kie_en.md). For training, evaluation and inference tutorial for text detection models, please refer to [text detection doc](../../doc/doc_en/detection_en.md). For training, evaluation and inference tutorial for text recognition models, please refer to [text recognition doc](../../doc/doc_en/recognition_en.md). To complete the key information extraction task in your own scenario from data preparation to model selection, please refer to: [Guide to End-to-end KIE](./how_to_do_kie_en.md)。 ## 5. Reference - LayoutXLM: Multimodal Pre-training for Multilingual Visually-rich Document Understanding, https://arxiv.org/pdf/2104.08836.pdf - microsoft/unilm/layoutxlm, https://github.com/microsoft/unilm/tree/master/layoutxlm - XFUND dataset, https://github.com/doc-analysis/XFUND ## 6. License The content of this project itself is licensed under the [Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0)](https://creativecommons.org/licenses/by-nc-sa/4.0/)