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Universal Adversarial Perturbations Through the Lens of Deep Steganography: Towards a Fourier Perspective

Chaoning Zhang, Philipp Benz, Adil Karjauv, In So Kweon

2021Proceedings of the AAAI Conference on Artificial Intelligence37 citationsDOIOpen Access PDF

Abstract

The booming interest in adversarial attacks stems from a misalignment between human vision and a deep neural network (DNN), \ie~a human imperceptible perturbation fools the DNN. Moreover, a single perturbation, often called universal adversarial perturbation (UAP), can be generated to fool the DNN for most images. A similar misalignment phenomenon has also been observed in the deep steganography task, where a decoder network can retrieve a secret image back from a slightly perturbed cover image. We attempt explaining the success of both in a unified manner from the Fourier perspective. We perform task-specific and joint analysis and reveal that (a) frequency is a key factor that influences their performance based on the proposed entropy metric for quantifying the frequency distribution; (b) their success can be attributed to a DNN being highly sensitive to high-frequency content. We also perform feature layer analysis for providing deep insight on model generalization and robustness. Additionally, we propose two new variants of universal perturbations: (1) high-pass UAP (HP-UAP) being less visible to the human eye; (2) Universal Secret Adversarial Perturbation (USAP) that simultaneously achieves attack and hiding.

Topics & Concepts

Computer scienceAdversarial systemArtificial intelligenceDeep learningDeep neural networksPerturbation (astronomy)Fourier transformCamouflageAlgorithmComputer visionMathematicsQuantum mechanicsMathematical analysisPhysicsAdversarial Robustness in Machine LearningDigital Media Forensic DetectionAnomaly Detection Techniques and Applications
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