@inproceedings{ghorbani2019towards,
  title={Towards automatic concept-based explanations},
  author={Ghorbani, Amirata and Wexler, James and Zou, James Y and Kim, Been},
  booktitle={Advances in Neural Information Processing Systems},
  pages={9273--9282},
  year={2019}
}

Ghorbani, Amirata, James Wexler, James Y. Zou, and Been Kim. 
"Towards Automatic Concept-based Explanations." 
Advances in Neural Information Processing Systems. 2019.

  Pytorch, Torchvision, Scikit-image, Matplotlib

python ace_run.py --num_parallel_runs 0 --target_class zebra --source_dir SOURCE_DIR --working_dir SAVE_DIR --model_to_run resnet18 --labels_path imagenet_class_index.json --feature_names layer3 --num_random_exp 20 --max_imgs 50 --min_imgs 30

num_random_exp: number of random concepts with respect to which concept-activaion-vectors are computed for calculating the TCAV score of a discovered concept (recommended >20).

target_class: Name of the class which prediction is to be explained.

SOURCE_DIR: Directory where the discovery images (refer to the paper) are saved. 
It should contain (at least) num_random_exp + 2 folders: 
1-"target_class" which contains images of the class to be explained (in this example the shoulder should be names as zebra). 
2-"random_discovery" which contains randomly selected images of the same dataset (at lease $max_imgs number of images).
3-"random500_0, ..., random_500_${num_random_exp} where each one contains 500 randomly selected images from the data set"

num_parallel_runs: Number of parallel jobs (loading images, etc). If 0, parallel processing is deactivated.

SAVE_DIR: Where the experiment results (both text report and the discovered concept examples) are saved.

model_to_run: Any torch.hub model. Note that you may need to edit the _get_gradients function in ace.py, this code is tested with googlenet and resnets