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Discover the Unknown Biased Attribute of an Image Classifier [ICCV'21]

teaser

Paper

Discover the Unknown Biased Attribute of an Image Classifier

Zhiheng Li, Chenliang Xu

University of Rochester

Preprint: https://arxiv.org/abs/2104.14556

Contact: Zhiheng Li (email: zhiheng.li@rochester.edu, homepage: https://zhiheng.li)

Abstract

Recent works find that AI algorithms learn biases from data. Therefore, it is urgent and vital to identify biases in AI algorithms. However, the previous bias identification pipeline overly relies on human experts to conjecture potential biases (e.g., gender), which may neglect other underlying biases not realized by humans. To help human experts better find the AI algorithms' biases, we study a new problem in this work -- for a classifier that predicts a target attribute of the input image, discover its unknown biased attribute.

To solve this challenging problem, we use a hyperplane in the generative model's latent space to represent an image attribute; thus, the original problem is transformed to optimizing the hyperplane's normal vector and offset. We propose a novel total-variation loss within this framework as the objective function and a new orthogonalization penalty as a constraint. The latter prevents trivial solutions in which the discovered biased attribute is identical with the target or one of the known-biased attributes. Extensive experiments on both disentanglement datasets and real-world datasets show that our method can discover biased attributes and achieve better disentanglement w.r.t. target attributes. Furthermore, the qualitative results show that our method can discover unnoticeable biased attributes for various object and scene classifiers, proving our method's generalizability for detecting biased attributes in diverse domains of images.

Discovered Unknown Biased Attributes

Here we show some interesting unknown biased attributes discovered by our method.

The classifier (first column)'s target prediction's probability (second column) gradually decreases as the image transforms (last two columns) under the discovered unknown biased attribute (third column).

For example, the ResNet-18 classifier trained on ImageNet's predicted probability of the "Cat" class gradually decreases as the cat's shade of fur color goes darker.

Classifier Classfier's Target Prediction Discovered Unknown Biased Attribute
ResNet-18 Trained on ImageNet [1] Cat shade of fur color (light $\rightarrow$ dark) cat_1 cat_2
ResNet-18 Trained on Places365 [2] Bedroom number of beds (1 $\rightarrow$ 2) bedroom_1 bedroom_2
ResNet-18 Trained on Places365 [2] Bridge buildings in the background (no building $\rightarrow$ building) bridge_1 bridge_2
ResNet-18 Trained on Places365 [2] Conference Room layout of conference room (table $\rightarrow$ hollow square table / no table) conferenceroom_1 confereceroom_2
ResNet-18 Trained on Places365 [2] Tower is Eiffel Tower (Eiffel tower $\rightarrow$ other towers) tower_1 tower_2

Dependencies

disentanglement_lib

pip install disentanglement-lib

PyTorch

torchvision

Dataset

dSprites:

wget -O data/dsprites/dsprites_ndarray_co1sh3sc6or40x32y32_64x64.npz https://github.com/deepmind/dsprites-dataset/blob/master/dsprites_ndarray_co1sh3sc6or40x32y32_64x64.npz?raw=true

SmallNorb:

  1. Download the gz files from https://cs.nyu.edu/~ylclab/data/norb-v1.0-small/

  2. decompress the files into data/small_norb

Experiment on Disentanglement Datasets

Step 1: train a biased target attribute classifier

bash scripts/synthetic/train_classifier.sh

Step 2: train a generative model, e.g., $\beta$-VAE.

bash scripts/synthetic/train_generative_model.sh

Step 3: encode images to the latent space via the encoder in the VAE-based model

bash scripts/synthetic/gen_latent_code.sh

Step 4: generate the ground-truth hyperplanes

bash scripts/synthetic/gen_gt_hyperplanes.sh

Step 5: optimize TV loss and orthogonalization penalty to get biased attribute hyperplane, i.e., discover the unknown biased attribute

bash scripts/synthetic/discover_unknown_bias.sh

Step 6: visualize the traversal images to interpret the bias

bash scripts/synthetic/visualize.sh

References

[1] J. Deng, W. Dong, R. Socher, L.-J. Li, Kai Li, and Li Fei-Fei, “ImageNet: A large-scale hierarchical image database,” in The IEEE Conference on Computer Vision and Pattern Recognition (CVPR), Jun. 2009, pp. 248–255.

[2] B. Zhou, A. Lapedriza, A. Khosla, A. Oliva, and A. Torralba, “Places: A 10 million image database for scene recognition,” IEEE Transactions on Pattern Analysis and Machine Intelligence, vol. 40, no. 6, pp. 1452–1464, 2018.

The code of "experiment on disentanglement datasets" is based on Disentanglement-PyTorch.

Citation

@inproceedings{li-2021-discover,
  title = {Discover the {{Unknown Biased Attribute}} of an {{Image Classifier}}},
  booktitle = {The {{IEEE International Conference}} on {{Computer Vision}} ({{ICCV}})},
  author = {Li, Zhiheng and Xu, Chenliang},
  year = {2021},
}

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Official code of "Discover the Unknown Biased Attribute of an Image Classifier" (ICCV 2021)

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