This repository contains the codes for DewarpNet training.
- [May, 2020] Added evaluation images and an important note about Matlab SSIM.
- [Dec, 2020] Added OCR evaluation details.
- [Sep, 2021] Released DewarpNet final models used in the paper.
- Prepare Data:
train.txt
&val.txt
. Contents should be like:
1/824_8-cp_Page_0503-7Ns0001
1/824_1-cp_Page_0504-2Cw0001
- Train Shape Network:
python trainwc.py --arch unetnc --data_path ./data/DewarpNet/doc3d/ --batch_size 50 --tboard
- Train Texture Mapping Network:
python trainbm.py --arch dnetccnl --img_rows 128 --img_cols 128 --img_norm --n_epoch 250 --batch_size 50 --l_rate 0.0001 --tboard --data_path ./DewarpNet/doc3d
- Run:
python infer.py --wc_model_path ./eval/models/unetnc_doc3d.pkl --bm_model_path ./eval/models/dnetccnl_doc3d.pkl --show
-
We use the same evaluation code as DocUNet. To reproduce the quantitative results reported in the paper use the images available here.
-
[Important note about Matlab version] We noticed that Matlab 2020a uses a different SSIM implementation which gives a better MS-SSIM score (0.5623). Whereas we have used Matlab 2018b. Please compare the scores according to your Matlab version.
- The 25 images used for OCR evaluation is
/eval/ocr_eval/ocr_files.txt
- The corresponding ground-truth text is given in
/eval/ocr_eval/tess_gt.json
- For the OCR errors reported in the paper we had used cv2.blur as pre-processing which gives higher error in all the cases. For convenience, we provide the updated numbers (without using blur) in the following table:
Method | ED | CER | ED (no blur) | CER (no blur) |
---|---|---|---|---|
DocUNet | 1975.86 | 0.4656(0.263) | 1671.80 | 0.403 (0.256) |
DocUNet on Doc3D | 1684.34 | 0.3955 (0.272) | 1296.00 | 0.294 (0.235) |
DewarpNet | 1288.60 | 0.3136 (0.248) | 1007.28 | 0.249 (0.236) |
DewarpNet (ref) | 1114.40 | 0.2692 (0.234) | 812.48 | 0.204 (0.228) |
- We had used the Tesseract (v4.1.0) default configuration for evaluation with PyTesseract (v0.2.6).
- Pre-trained models are available here. These models are captured prior to end-to-end training, thus won't give you the end-to-end results reported in Table 2 of the paper. Use the images provided above to get the exact numbers as Table 2.
- Final models are available here. These models can be used to unwarp DocUNet images and reproduce the results in the ICCV paper.
- The doc3D dataset can be downloaded using the scripts here.
If you use the dataset or this code, please consider citing our work-
@inproceedings{SagnikKeICCV2019,
Author = {Sagnik Das*, Ke Ma*, Zhixin Shu, Dimitris Samaras, Roy Shilkrot},
Booktitle = {Proceedings of International Conference on Computer Vision},
Title = {DewarpNet: Single-Image Document Unwarping With Stacked 3D and 2D Regression Networks},
Year = {2019}}
- These codes are heavily structured on pytorch-semseg.