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Code for the paper "UVDoc: Neural Grid-based Document Unwarping"

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UVDoc: Neural Grid-based Document Unwarping

Header

This repository contains the code for the "UVDoc: Neural Grid-based Document Unwarping" paper. If you are looking for (more information about) the UVDoc dataset, you can find it here.

Three requirements files are provided for the three use cases made available in this repo. Each use case is detailed below.

Demo

Note : Requirements

Before trying to unwarp a document using our model, you need to install the requirements. To do so, we advise you to create a virtual environment. Then run pip install -r requirements_demo.txt.

To try our model (available in this repo at model/best_model.pkl) on your custom images, run the following:

python demo.py --img-path [PATH/TO/IMAGE] 

You can also use a model you trained yourself by specifying the path to the model like this:

python demo.py --img-path [PATH/TO/IMAGE] --ckpt-path [PATH/TO/MODEL]

Model training

Note : Requirements

Before training a model, you need to install the requirements. To do so, we advise you to create a virtual environment. Then run pip install -r requirements_train.txt.

To train a model, you first need to get the data:

  • UVDoc dataset can be accessed here.
  • The Doc3D dataset can be downloaded from here. We augmented this dataset with 2D grids and 3D grids that are available here.

Then, unzip the downloaded archive into the data folder. The final structure of the data folder should be as follows:

data/
├── doc3D
│   ├── grid2D
│   ├── grid3D
│   ├── bm
│   └── img
└── UVDoc
    ├── grid2d
    ├── grid3d
    ├── img
    ├── img_geom
    ├── metadata_geom
    ├── metadata_sample
    ├── seg
    ├── textures
    ├── uvmap
    ├── warped_textures
    └── wc

Once this is done, run the following:

python train.py

Several hyperparameters, such as data augmentations, number of epochs, learning rate, or batch size can be tuned. To learn about them, please run the following:

python train.py --help

Evaluation

Note : Requirements

Before evaluating a model, you need to install the requirements. To do so, we advise you to create a virtual environment. Then run pip install -r requirements_eval.txt.

You will also need to install matlab.engine, to allow interfacing matlab with python. To do so, you first need to find the location of your matlab installation (for instance, by running matlabroot from within matlab). Then go to <matlabroot>/extern/engines/python and run python setup.py install. You can open a python prompt and run import matlab.engine followed by eng = matlab.engine.start_matlab() to see if it was successful.

Finally you might need to install tesseract via sudo apt install tesseract-ocr libtesseract-dev.

You can easily evaluate our model or a model you trained yourself using the provided script. Our model is available in this repo at model/best_model.pkl.

DocUNet benchmark

To make predictions using a model on the DocUNet benchmark, please first download the DocUNet Benchmark (available here) and place it under data to have the following structure:

data/
└── DocUNet
    ├── crop
    ├── original
    └── scan

Then run:

python docUnet_pred.py --ckpt-path [PATH/TO/MODEL]

This will create a docunet folder next to the model, containing the unwarped images.

Then to compute the metrics over these predictions, please run the following:

python docUnet_eval.py --pred-path [PATH/TO/UNWARPED]

UVDoc benchmark

To make predictions using a model on the UVDoc benchmark, please first download the UVDoc Benchmark (available here) and place it under data to have the following structure:

data/
└── UVDoc_benchmark
    ├── grid2d
    ├── grid3d
    └── ...

Then run:

python uvdocBenchmark_pred.py --ckpt-path [PATH/TO/MODEL]

This will create a output_uvdoc folder next to the model, containing the unwarped images.

Then to compute the metrics over these predictions, please run the following:

python uvdocBenchmark_eval.py --pred-path [PATH/TO/UNWARPED]

❗ Erratum

The MS-SSIM and AD values for the UVDoc benchmark reported in our paper mistakenly were calculated based on only half of the UVDoc benchmark (for our method as well as related works). We here report the old and the corrected values on the entire UVDoc benchmark:

✅ New ✅ MS-SSIM AD
DewarpNet 0.589 0.193
DocTr 0.697 0.160
DDCP 0.585 0.290
RDGR 0.610 0.280
DocGeoNet 0.706 0.168
Ours 0.785 0.119
❌ Old ❌ MS-SSIM AD
DewarpNet 0.6 0.189
DocTr 0.684 0.176
DDCP 0.591 0.334
RDGR 0.603 0.314
DocGeoNet 0.714 0.167
Ours 0.784 0.122

Resulting images

You can download the unwarped images that we used in our paper:

Citation

If you used this code or the UVDoc dataset, please consider citing our work:

@inproceedings{UVDoc,
title={{UVDoc}: Neural Grid-based Document Unwarping},
author={Floor Verhoeven and Tanguy Magne and Olga Sorkine-Hornung},
booktitle = {SIGGRAPH ASIA, Technical Papers},
year = {2023},
url={https://doi.org/10.1145/3610548.3618174}
}

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Code for the paper "UVDoc: Neural Grid-based Document Unwarping"

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