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Paper detail

ATMPA: Attacking Machine Learning-based Malware Visualization Detection Methods via Adversarial Examples

Since the threat of malicious software (malware) has become increasingly serious, automatic malware detection techniques have received increasing attention, where machine learning (ML)-based visualization detection methods become more and more popular. In this paper, we demonstrate that the state-of-the-art ML-based visualization detection methods are vulnerable to Adversarial Example (AE) attacks. We develop a novel Adversarial Texture Malware Perturbation Attack (ATMPA) method based on the gradient descent and L-norm optimization method, where attackers can introduce some tiny perturbations on the transformed dataset such that ML-based malware detection methods will completely fail. The experimental results on the MS BIG malware dataset show that a small interference can reduce the accuracy rate down to 0% for several ML-based detection methods, and the rate of transferability is 74.1% on average.

preprint2019arXivOpen access
Xinbo LiuJiliang ZhangYaping LinHe Li
Cryptography and Security
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Xinbo LiuJiliang ZhangYaping LinHe Li

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