Physical Adversarial Attacks Against Deep Learning Based Channel Decoding Systems

Submitted by aekwall on Mon, 03/15/2021 - 11:57am

Title	Physical Adversarial Attacks Against Deep Learning Based Channel Decoding Systems
Publication Type	Conference Paper
Year of Publication	2020
Authors	Babu, S. A., Ameer, P. M.
Conference Name	2020 IEEE Region 10 Symposium (TENSYMP)
Date Published	jun
Keywords	adversarial attacks, Artificial neural networks, black-box adversarial attacks, channel coding, channel decoding, channel decoding systems, classical decoding schemes, composability, conventional jamming attacks, Decoding, Deep Learning, deep learning channel, huge success, jamming, learning (artificial intelligence), Metrics, modulation, Neural networks, Noise measurement, Perturbation methods, physical adversarial attacks, physical white-box, private key cryptography, pubcrawl, Resiliency, telecommunication security, white box cryptography, wireless security
Abstract	Deep Learning (DL), in spite of its huge success in many new fields, is extremely vulnerable to adversarial attacks. We demonstrate how an attacker applies physical white-box and black-box adversarial attacks to Channel decoding systems based on DL. We show that these attacks can affect the systems and decrease performance. We uncover that these attacks are more effective than conventional jamming attacks. Additionally, we show that classical decoding schemes are more robust than the deep learning channel decoding systems in the presence of both adversarial and jamming attacks.
DOI	10.1109/TENSYMP50017.2020.9230666
Citation Key	babu_physical_2020

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