Channel Prediction and Transmitter Authentication With Adversarially-Trained Recurrent Neural Networks

Germain, Ken St.; Kragh, Frank

doi:10.1109/ojcoms.2021.3072569

Cited by 5 publications

(2 citation statements)

References 49 publications

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“…The intricate IPCS network results in a high false alarm rate for security authentication [33]. Some research has utilized a linear first-order autoregression approach to model wireless channels [34,35]. Although they have obvious advantages including low overhead and low latency, most one-time authentication schemes are static in time [36].…”

Section: Prior Art and Motivationmentioning

confidence: 99%

Intelligent Security Authentication for Connected and Autonomous Vehicles: Attacks and Defenses

Qiu,

Yu,

Jiang

et al. 2024

Electronics

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The emergence of integrated positioning, communication, and sensing technologies has paved the way for a surge in connected and autonomous vehicles. The control system has been successful in reliable and fast transmission. However, practical applications face security risks, especially data tampering and spoofing attacks. To improve the resilience of the system against potential attacks, we attempt to leverage a generative adversarial network learning-assisted authentication framework (GAF). In addition to proposing a new method for validating vehicles, we also introduce a new architectural innovation in the generator–discriminator pair to achieve improved results. The generator sub-network is constructed using an advanced convolutional neural network, whereas the discriminator is designed to leverage global and local information to determine whether a signal is real or fake. On this basis, we propose a signal enhancement-based authentication method, a deep convolutional generative adversarial network (DCGAN). Experimental results using the National Institute of Standards and Technology (NIST) dataset show that the proposed method is effective in denoising and improving the detection performance.

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Section: Prior Art and Motivationmentioning

confidence: 99%

Intelligent Security Authentication for Connected and Autonomous Vehicles: Attacks and Defenses

Qiu,

Yu,

Jiang

et al. 2024

Electronics

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“…The task of the GAN based data augmentation in communication systems has also attracted widespread attention, to handle labeled data insufficiency and improve the classification accuracy for automatic modulation classification (AMC) applications [27]. Indeed, in [28] the authors use an ACGAN model [29] to generate synthetic digital modulations, namely BPSK, QPSK, 16QAM, 32QAM, 64QAM, OQPSK, 4ASK, 8PSK, and use them along with real signals to train a convolutional neural network (CNN) classifier, more precisely, AlexNet.…”

Section: Introductionmentioning

confidence: 99%

GAN-Based Evasion Attack in Filtered Multicarrier Waveforms Systems

Zerhouni,

Gaba,

Hedabou

et al. 2024

Trans. Mach. Learn. Comm. Netw.

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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 GANgenerated 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.

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