Kawtar Zerhouni;Gurjot Singh Gaba;Mustapha Hedabou;Taras Maksymyuk;Andrei Gurtov;El Mehdi Amhoud
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引用次数: 0
Abstract
Generative adversarial networks (GANs), a category of deep learning models, have become a cybersecurity concern for wireless communication systems. These networks enable potential attackers to deceive receivers that rely on convolutional neural networks (CNNs) by transmitting deceptive wireless signals that are statistically indistinguishable from genuine ones. While GANs have been used before for digitally modulated single-carrier waveforms, this study explores their applicability to model filtered multi-carrier waveforms, such as orthogonal frequency-division multiplexing (OFDM), filtered orthogonal FDM (F-OFDM), generalized FDM (GFDM), filter bank multi-carrier (FBMC), and universal filtered MC (UFMC). In this research, an evasion attack is conducted using GAN-generated counterfeit filtered multi-carrier signals to trick the target receiver. The results show that there is a remarkable 99.7% probability of the receiver misclassifying these GAN-based fabricated signals as authentic ones. This highlights the need for urgent investigation into the development of preventive measures to address this concerning vulnerability.
生成对抗网络(GANs)是一类深度学习模型,已成为无线通信系统的网络安全问题。这些网络使潜在的攻击者能够欺骗依赖卷积神经网络(CNN)的接收器,传输在统计上与真实信号无法区分的欺骗性无线信号。虽然 GAN 以前曾用于数字调制的单载波波形,但本研究探讨了 GAN 对滤波多载波波形建模的适用性,如正交频分复用 (OFDM)、滤波正交 FDM (F-OFDM)、广义 FDM (GFDM)、滤波器组多载波 (FBMC) 和通用滤波 MC (UFMC)。在这项研究中,利用 GAN 生成的伪造滤波多载波信号来欺骗目标接收器,从而进行规避攻击。结果表明,接收器将这些基于 GAN 的伪造信号误判为真实信号的概率高达 99.7%。这突出表明,迫切需要研究制定预防措施来解决这一令人担忧的漏洞。
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