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Towards Fairness in Visual Recognition: Effective Strategies for Bias Mitigation

Computer Vision and Pattern Recognition (CVPR), June 2020

Zeyu Wang, Klint Qinami, Yannis Karakozis,
Kyle Genova, Prem Nair,
Kenji Hata, Olga Russakovsky.
Abstract

Computer vision models learn to perform a task by capturing relevant statistics from training data. It has been shown that models learn spurious age, gender, and race correlations when trained for seemingly unrelated tasks like activity recognition or image captioning. Various mitigation techniques have been presented to prevent models from utilizing or learning such biases. However, there has been little systematic comparison between these techniques. We design a simple but surprisingly effective visual recognition benchmark for studying bias mitigation. Using this benchmark, we provide a thorough analysis of a wide range of techniques. We highlight the shortcomings of popular adversarial training approaches for bias mitigation, propose a simple but similarly effective alternative to the inference-time Reducing Bias Amplification method of Zhao et al., and design a domain-independent training technique that outperforms all other methods. Finally, we validate our findings on the attribute classification task in the CelebA dataset, where attribute presence is known to be correlated with the gender of people in the image, and demonstrate that the proposed technique is effective at mitigating real-world gender bias.
Citation

Zeyu Wang, Klint Qinami, Yannis Karakozis, Kyle Genova, Prem Nair, Kenji Hata, and Olga Russakovsky..
"Towards Fairness in Visual Recognition: Effective Strategies for Bias Mitigation."
Computer Vision and Pattern Recognition (CVPR), June 2020.

BibTeX

@inproceedings{Wang:2020:TFI,
   author = "Zeyu Wang and Klint Qinami and Yannis Karakozis and Kyle Genova and
      Prem Nair and Kenji Hata and Olga Russakovsky.",
   title = "Towards Fairness in Visual Recognition: Effective Strategies for Bias
      Mitigation",
   booktitle = "Computer Vision and Pattern Recognition (CVPR)",
   year = "2020",
   month = jun
}