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NIR-ISL2021-Transfer-learning

This repository is top one scheme in NIR-ISL 2021 based on pytorch implementation.

Transfer Learning

Alt text

Requirements

  • python 3.6
  • pytorch 1.5+
  • scikit-learn
  • scikit-image
  • albumentations
  • opencv-python
  • tensorboardX
  • segmentation_models_pytorch

Usage

We upload all the tensorboard records in the training process and the final optimal models to [Google Drive] [Baidu Cloud] (sd4g). Replace the downloaded folder with the 'trained_models' folder in the root directory. Training and test data are downloaded from NIR-ISL-2021 and placed in the 'data' folder. All training codes are only considered to be completed on one GPU (RTX 2080Ti).

Data split

Five-fold cross-validation was used in our experiment. The split results we used is saved in the'. pkl' file under the' data' folder. You can also get your own split results through the following code:

python split.py --data_dir data --save_dir data

Training

Baseline model

Training baseline model commands are as follows:

# for semgentation
# CASIA-Iris-Africa
python train_seg.py --gpu 0 --bs 16 --name baseline --epoch 500 --net unet_resnet34 --fold 0 --dataset Africa
# CASIA-Iris-Asia
python train_seg.py --gpu 0 --bs 16 --name baseline --epoch 500 --net unet_resnet34 --fold 0 --dataset Asia
# CASIA-Iris-Mobile-V1.0
python train_seg.py --gpu 0 --bs 28 --name baseline --epoch 400 --net unet_resnet34 --fold 0 --dataset M1

# for localization
# CASIA-Iris-Africa
python train_local_inner_outer.py --gpu 0 --bs 16 --name baseline --epoch 500 --net unet_resnet34 --fold 0 --dataset Africa
# CASIA-Iris-Asia
python train_local_inner_outer.py --gpu 0 --bs 16 --name baseline --epoch 500 --net unet_resnet34 --fold 0 --dataset Asia
# CASIA-Iris-Mobile-V1.0
python train_local_inner_outer.py --gpu 0 --bs 28 --name baseline --epoch 400 --net unet_resnet34 --fold 0 --dataset M1

Each code execution only trains one fold. Train fold 0, 1, 2, 3 and 4 in turn.

Transfer learning model

Firstly, all the data are used to train an iris pre-trained model.

# for semgentation
python train_seg.py --gpu 0 --bs 22 --name baseline --epoch 500 --net unet_resnet34 --fold 0 --dataset all

# for localization
python train_local_inner_outer.py --gpu 0 --bs 22 --name baseline --epoch 500 --net unet_resnet34 --fold 0 --dataset all

Then fine-tune the iris pre-trained model on the subdatasets.

# for semgentation
# CASIA-Iris-Africa
python finetune_seg.py --gpu 0 --bs 16 --name finetune --epoch 200 --net unet_resnet34 --fold 0 --dataset Africa --pretrained trained_models/All/Seg/baseline_UNet_ResNet34/bs22_epoch500_fold0/best_acc.pth
# CASIA-Iris-Asia
python finetune_seg.py --gpu 0 --bs 16 --name finetune --epoch 200 --net unet_resnet34 --fold 0 --dataset Asia --pretrained trained_models/All/Seg/baseline_UNet_ResNet34/bs22_epoch500_fold0/best_acc.pth
# CASIA-Iris-Mobile-V1.0
python finetune_seg.py --gpu 0 --bs 28 --name finetune --epoch 100 --net unet_resnet34 --fold 0 --dataset M1 --pretrained trained_models/All/Seg/baseline_UNet_ResNet34/bs22_epoch500_fold0/best_acc.pth

# for localization
# CASIA-Iris-Africa
python finetune_local_inner_outer.py --gpu 0 --bs 16 --name finetune --epoch 200 --net unet_resnet34 --fold 0 --dataset Africa --pretrained trained_models/All/Local_inner_outer/bsaeline_UNet_ResNet34/bs20_epoch500_fold0/best_model.pth
# CASIA-Iris-Asia
python finetune_local_inner_outer.py --gpu 0 --bs 16 --name finetune --epoch 200 --net unet_resnet34 --fold 0 --dataset Asia --pretrained trained_models/All/Local_inner_outer/bsaeline_UNet_ResNet34/bs20_epoch500_fold0/best_model.pth
# CASIA-Iris-Mobile-V1.0
python finetune_local_inner_outer.py --gpu 0 --bs 28 --name finetune --epoch 100 --net unet_resnet34 --fold 0 --dataset M1 --pretrained trained_models/All/Local_inner_outer/bsaeline_UNet_ResNet34/bs20_epoch500_fold0/best_model.pth

Validation set evaluation

# for semgentation
python predict_seg_val.py --gpu 0 --net unet_resnet34 --fold 0 --model_path model_path --dataset subdataset

# for localization
python predict_local_iris_val.py --gpu 0 --net unet_resnet34 --fold 0 --model_path model_path --dataset subdataset

model_path specifies the path of the corresponding'. pth' file. As with the above training command, subdataset chooses from chooses from 'Africa', 'Asia' and 'M1'.

Test set prediction

Ensure that after downloading the trained models from Google Drive or Baidu Cloud and placing it in the specified location, execute the following codes in turn, and you can get the completely consistent test set prediction results provided by us in NIR-ISL2021.

python predict_seg_Africa.py --gpu 0
python predict_seg_Asia.py --gpu 0
python predict_seg_M1.py --gpu 0
python predict_local_Africa.py --gpu 0
python predict_local_Asia.py --gpu 0
python predict_local_M1.py --gpu 0

The prediction results are saved in 'NIR-ISL2021_predictions' folder. If you want to use your own trained models for prediction, you only need to modify the model_path in the'. py' files.

External data testing

Alt text We also open source prediction codes for external data. For a given iris picture, the iris mask and inner and outer contours can be obtained by the following command. We provide three models for you to choose from 'Africa', 'Asia' and 'M1'. Besides, the prediction with CPU is provided (--gpu none).

python predict_one_img.py --gpu 0 --img_path img_path --save_dir save_dir --model model

img_path is the path of a picture and save_dir is the folder for saving predicted pictures.

Contributing

Yiwen Zhang, Tianbao Liu

School of Biomedical Engineering, Southern Medical University, Guangzhou, China