Physical Adversarial Attacks Against End-to-End Autoencoder Communication Systems

February 22, 2019 Β· Declared Dead Β· πŸ› IEEE Communications Letters

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Authors Meysam Sadeghi, Erik G. Larsson arXiv ID 1902.08391 Category cs.IT: Information Theory Cross-listed cs.CR, cs.LG, eess.SP Citations 133 Venue IEEE Communications Letters Last Checked 4 months ago
Abstract
We show that end-to-end learning of communication systems through deep neural network (DNN) autoencoders can be extremely vulnerable to physical adversarial attacks. Specifically, we elaborate how an attacker can craft effective physical black-box adversarial attacks. Due to the openness (broadcast nature) of the wireless channel, an adversary transmitter can increase the block-error-rate of a communication system by orders of magnitude by transmitting a well-designed perturbation signal over the channel. We reveal that the adversarial attacks are more destructive than jamming attacks. We also show that classical coding schemes are more robust than autoencoders against both adversarial and jamming attacks. The codes are available at [1].
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