Domain Constraints in Feature Space: Strengthening Robustness of Android Malware Detection against Realizable Adversarial Examples

05/30/2022
by   Hamid Bostani, et al.
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Strengthening the robustness of machine learning-based malware detectors against realistic evasion attacks remains one of the major obstacles for Android malware detection. To that end, existing work has focused on interpreting domain constraints of Android malware in the problem space, where problem-space realizable adversarial examples are generated. In this paper, we provide another promising way to achieve the same goal but based on interpreting the domain constraints in the feature space, where feature-space realizable adversarial examples are generated. Specifically, we present a novel approach to extracting feature-space domain constraints by learning meaningful feature dependencies from data, and applying them based on a novel robust feature space. Experimental results successfully demonstrate the effectiveness of our novel robust feature space in providing adversarial robustness for DREBIN, a state-of-the-art Android malware detector. For example, it can decrease the evasion rate of a realistic gradient-based attack by 96.4% in a limited-knowledge (transfer) setting and by 13.8% in a more challenging, perfect-knowledge setting. In addition, we show that directly using our learned domain constraints in the adversarial retraining framework leads to about 84% improvement in a limited-knowledge setting, with up to 377× faster implementation than using problem-space adversarial examples.

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