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Informative dropout for robust representation learning: a shape-bias perspective

Informative dropout for robust representation learning: a shape-bias perspective
Informative dropout for robust representation learning: a shape-bias perspective
Convolutional Neural Networks (CNNs) are known to rely more on local texture rather than global shape when making decisions. Recent work also indicates a close relationship between CNN's texture-bias and its robustness against distribution shift, adversarial perturbation, random corruption, etc. In this work, we attempt at improving various kinds of robustness universally by alleviating CNN's texture bias. With inspiration from the human visual system, we propose a light-weight model-agnostic method, namely Informative Dropout (InfoDrop), to improve interpretability and reduce texture bias. Specifically, we discriminate texture from shape based on local self-information in an image, and adopt a Dropout-like algorithm to decorrelate the model output from the local texture. Through extensive experiments, we observe enhanced robustness under various scenarios (domain generalization, few-shot classification, image corruption, and adversarial perturbation). To the best of our knowledge, this work is one of the earliest attempts to improve different kinds of robustness in a unified model, shedding new light on the relationship between shape-bias and robustness, also on new approaches to trustworthy machine learning algorithms.
8828–8839
International Machine Learning Society
Shi, Baifeng
af00da79-2b9e-40ae-b46d-b87964816796
Zhang, Dinghuai
f65f010c-e6e1-4198-a2a7-101639a75e14
Dai, Qi
dde759f9-bdc5-46d3-a0bb-45cafb5490f0
Zhu, Zhanxing
e55e7385-8ba2-4a85-8bae-e00defb7d7f0
Mu, Yadong
22ed0fa7-5931-419a-b503-ed8cd8553aae
Wang, Jingdong
78fec395-9075-4b9c-967d-c19a40c8db12
Daumé, Hal
Singh, Aarti
Shi, Baifeng
af00da79-2b9e-40ae-b46d-b87964816796
Zhang, Dinghuai
f65f010c-e6e1-4198-a2a7-101639a75e14
Dai, Qi
dde759f9-bdc5-46d3-a0bb-45cafb5490f0
Zhu, Zhanxing
e55e7385-8ba2-4a85-8bae-e00defb7d7f0
Mu, Yadong
22ed0fa7-5931-419a-b503-ed8cd8553aae
Wang, Jingdong
78fec395-9075-4b9c-967d-c19a40c8db12
Daumé, Hal
Singh, Aarti

Shi, Baifeng, Zhang, Dinghuai, Dai, Qi, Zhu, Zhanxing, Mu, Yadong and Wang, Jingdong (2020) Informative dropout for robust representation learning: a shape-bias perspective. Daumé, Hal and Singh, Aarti (eds.) In ICML'20: Proceedings of the 37th International Conference for Machine Learning (ICML). International Machine Learning Society. 8828–8839 . (doi:10.5555/3524938.3525757).

Record type: Conference or Workshop Item (Paper)

Abstract

Convolutional Neural Networks (CNNs) are known to rely more on local texture rather than global shape when making decisions. Recent work also indicates a close relationship between CNN's texture-bias and its robustness against distribution shift, adversarial perturbation, random corruption, etc. In this work, we attempt at improving various kinds of robustness universally by alleviating CNN's texture bias. With inspiration from the human visual system, we propose a light-weight model-agnostic method, namely Informative Dropout (InfoDrop), to improve interpretability and reduce texture bias. Specifically, we discriminate texture from shape based on local self-information in an image, and adopt a Dropout-like algorithm to decorrelate the model output from the local texture. Through extensive experiments, we observe enhanced robustness under various scenarios (domain generalization, few-shot classification, image corruption, and adversarial perturbation). To the best of our knowledge, this work is one of the earliest attempts to improve different kinds of robustness in a unified model, shedding new light on the relationship between shape-bias and robustness, also on new approaches to trustworthy machine learning algorithms.

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Published date: 13 July 2020
Learn more about Vision, Learning and Control research

Identifiers

Local EPrints ID: 486323
URI: http://eprints.soton.ac.uk/id/eprint/486323
DOI: doi:10.5555/3524938.3525757
PURE UUID: 0af700bd-331c-4cf1-af64-de218bffe478

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Date deposited: 17 Jan 2024 19:37
Last modified: 17 Mar 2024 06:51

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Contributors

Author: Baifeng Shi
Author: Dinghuai Zhang
Author: Qi Dai
Author: Zhanxing Zhu
Author: Yadong Mu
Author: Jingdong Wang
Editor: Hal Daumé
Editor: Aarti Singh

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