Code for paper 'Boundary and Entropy-driven Adversarial Learning for Fundus Image Segmentation' early accepted by MICCAI 2019.

This is a PyTorch(1.0.1.post2) implementation of BEAL. The code was tested with Anaconda and Python 3.7.1.

    conda install pytorch torchvision cudatoolkit=9.0 -c pytorch

After installing the dependency:

    pip install pyyaml
    pip install pytz
    pip install tensorboardX==1.4 matplotlib pillow 
    pip install tqdm
    conda install scipy==1.1.0
    conda install -c conda-forge opencv

0. Clone the repo:

   git clone https://github.com/EmmaW8/BEAL.git
   cd BEAL

1. Install dependencies:

   For PyTorch dependency, see pytorch.org for more details.

   For custom dependencies:

2. Configure your dataset path in train.py with parameter '--data-dir'. Dataset download link: DGS RIM-ONE Refuge

3. You can train deeplab v3+ using mobilenetv2 or others as backbone.

   To train it, please do:

   python train.py -g 0 --data-dir /data/ssd/public/sjwang/fundus_data/domain_adaptation --batch-size 8 --datasetT RIM-ONE_r3

   To test it, please do: Download the weights can put them into the log folder from link.

   python test.py --model-file ./logs/DGS_weights.tar --dataset Drishti-GS

@inproceedings{wang2019boundary,
  title={Boundary and Entropy-driven Adversarial Learning for Fundus Image Segmentation},
  author={Wang, Shujun and Yu, Lequan and Li, Kang and Yang, Xin and Fu, Chi-Wing and Heng, Pheng-Ann},
  booktitle={International Conference on Medical Image Computing and Computer-Assisted Intervention},
  pages={To appear},
  year={2019},
  organization={Springer}
}