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Towards Understanding the Robustness Against Evasion Attack on Categorical Data


April 25, 2022


Hongyan Bao, KAUST; Yufei Han, INRIA; Yujun Zhou, KAUST; Yun Shen, NetApp Inc; Xiangliang Zhang, University of Notre Dame

Characterizing and assessing the adversarial vulnerability of classification models with categorical input has been a practically important, while rarely explored research problem. Our work echoes the challenge by first unveiling the impact factors of adversarial vulnerability of classification models with categorical data based on an information-theoretic adversarial risk analysis about the targeted classifier. Though certifying the robustness of such classification models is intrinsically an NP-hard combinatorial problem, our study shows that the robustness certification can be solved via an efficient greedy exploration of the discrete attack space for any measurable classifiers with a mild smoothness constraint. Our proposed robustness certification framework is instantiated with deep neural network models applied on real-world safety-critic data sources. Our empirical observations confirm the impact of the key adversarial risk factors with categorical input.


The paper can be found at:

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