Toward Robust Diagnosis: A Contour Attention Preserving Adversarial Defense for COVID-19 Detection

Authors

  • Kun Xiang Sun Yat-sen University
  • Xing Zhang Shuguang Hospital, Shanghai University of Traditional Chinese Medicine
  • Jinwen She Sun Yat-sen University
  • Jinpeng Liu Sun Yat-sen University
  • Haohan Wang University of Illinois Urbana-Champaign
  • Shiqi Deng Sun Yat-sen University
  • Shancheng Jiang Sun Yat-sen University Guangdong Provincial Key Laboratory of Fire Science and Technology

DOI:

https://doi.org/10.1609/aaai.v37i3.25395

Keywords:

CV: Adversarial Attacks & Robustness, CV: Applications, CV: Medical and Biological Imaging, ML: Adversarial Learning & Robustness, ML: Applications

Abstract

As the COVID-19 pandemic puts pressure on healthcare systems worldwide, the computed tomography image based AI diagnostic system has become a sustainable solution for early diagnosis. However, the model-wise vulnerability under adversarial perturbation hinders its deployment in practical situation. The existing adversarial training strategies are difficult to generalized into medical imaging field challenged by complex medical texture features. To overcome this challenge, we propose a Contour Attention Preserving (CAP) method based on lung cavity edge extraction. The contour prior features are injected to attention layer via a parameter regularization and we optimize the robust empirical risk with hybrid distance metric. We then introduce a new cross-nation CT scan dataset to evaluate the generalization capability of the adversarial robustness under distribution shift. Experimental results indicate that the proposed method achieves state-of-the-art performance in multiple adversarial defense and generalization tasks. The code and dataset are available at https://github.com/Quinn777/CAP.

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Published

2023-06-26

How to Cite

Xiang, K., Zhang, X., She, J., Liu, J., Wang, H., Deng, S., & Jiang, S. (2023). Toward Robust Diagnosis: A Contour Attention Preserving Adversarial Defense for COVID-19 Detection. Proceedings of the AAAI Conference on Artificial Intelligence, 37(3), 2928-2937. https://doi.org/10.1609/aaai.v37i3.25395

Issue

Section

AAAI Technical Track on Computer Vision III