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Code repository for "Interpretable and Accurate Fine-grained Recognition via Region Grouping", CVPR 2020 (Oral)

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zxhuang1698/interpretability-by-parts

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Interp-Parts

Code repository for our paper "Interpretable and Accurate Fine-grained Recognition via Region Grouping" in CVPR 2020 (Oral Presentation).

[Project Page] [Paper]

The repository includes full training and evaluation code for CelebA and CUB-200-2011 datasets.

Dependencies

  • p7zip (used for uncompression)
  • Python 3
  • Pytorch 1.4.0+
  • OpenCV-Python
  • Numpy
  • Scipy
  • MatplotLib
  • Scikit-learn

Dataset

CelebA

You will need to download both aligned and unaligned face images (JPEG format) in CelebA dataset at http://mmlab.ie.cuhk.edu.hk/projects/CelebA.html. Make sure your data/celeba folder is structured as follows:

├── img_align_celeba.zip
├── img_celeba.7z.001
├── ...
├── img_celeba.7z.014
└── annotation.zip

We provide a bash script to unpack all images. You can use

cd ./data/celeba
sh data_processing.sh

It might take more than 30 minutes to uncompress all the data.

CUB 200

For Caltech-UCSD Birds-200-2011 (CUB-200) dataset, you will need to manually download the dataset at http://www.vision.caltech.edu/visipedia/CUB-200-2011.html and uncompress the tgz file into data/cub200. Make sure your data/cub200 folder is structured as follows:

├── CUB_200_2011/
|   ├── images/
|   ├── parts/
|   ├── attributes/
├── train_test_split.txt
├── ...

CelebA Example

Helper for training parameters:

cd src/celeba
python train.py --config-help

Training (Unaligned CelebA from SCOPS)

Training (You can specify the desired settings in celeba_res101.json):

cd src/celeba
python train.py --config ../../celeba_res101.json

The code will create three folders for model checkpoints (./checkpoint), log files (./log) and tensorboard logs (./tensorboard_log).

Visualization and Evaluation (Unaligned CelebA from SCOPS)

Visualization of the results (assuming a ResNet 101 model trained with 9 parts):

cd src/celeba
python visualize.py --load celeba_res101_p9

The code will create a new folder (./visualization) for output images (25 by default).

Evaluating interpretability using part localization (assuming a ResNet101 model trained with 9 parts):

cd src/celeba
python eval_interp.py --load celeba_res101_p9

This should reproduce our results in Table 2.

Evaluating accuracy (assuming a ResNet101 model trained with 9 parts):

cd src/celeba
python eval_acc.py --load celeba_res101_p9

This will report the classification accuracy (mean class accuracy) on the test set of SCOPS split.

Reproduce Results in Table 1 (Aligned CelebA)

Training (You need to change the split to accuracy in celeba_res101.json):

cd src/celeba
python train.py --config ../../celeba_res101.json

Evaluation:

cd src/celeba
python eval_acc.py --load celeba_res101_p9

CUB-200 Example

Helper for training parameters:

cd src/cub200
python train.py --config-help

Training

Training (You can specify the desired settings in celeba_res101.json. The default configuration is slightly different from the paper to reduce GPU memory usage, so that the code can run on a single advanced graphic card.):

cd src/cub200
python train.py --config ../../cub_res101.json

The code will create three folders for model checkpoints (./checkpoint), log files (./log) and tensorboard logs (./tensorboard_log).

Visualization and Evaluation

Visualization of the results (assuming a ResNet 101 model trained with 5 parts):

cd src/cub200
python visualize.py --load cub_res101_p5

The code will create a new folder (./visualization) for output images (25 by default).

Evaluating interpretability using part localization (assuming a ResNet101 model trained with 5 parts):

cd src/cub200
python eval_interp.py --load cub_res101_p5

Evaluating accuracy (assuming a ResNet101 model trained with 5 parts):

cd src/cub200
python eval_acc.py --load cub_res101_p5

This will report the classification accuracy on the test set of CUB-200.

References

If you are using our code, please consider citing our paper.

@InProceedings{Huang_2020_CVPR,
author = {Huang, Zixuan and Li, Yin},
title = {Interpretable and Accurate Fine-grained Recognition via Region Grouping},
booktitle = {The IEEE/CVF Conference on Computer Vision and Pattern Recognition (CVPR)},
month = {June},
year = {2020}
}

If you are using CelebA dataset, please cite

@inproceedings{liu2015faceattributes,
 title = {Deep Learning Face Attributes in the Wild},
 author = {Liu, Ziwei and Luo, Ping and Wang, Xiaogang and Tang, Xiaoou},
 booktitle = {Proceedings of International Conference on Computer Vision (ICCV)},
 month = {December},
 year = {2015}
}

If you are using CUB-200 dataset, please cite

@techreport{WahCUB_200_2011,
Title = {{The Caltech-UCSD Birds-200-2011 Dataset}},
Author = {Wah, C. and Branson, S. and Welinder, P. and Perona, P. and Belongie, S.},
Year = {2011}
Institution = {California Institute of Technology},
Number = {CNS-TR-2011-001}
}