Litcius/Paper detail

Detection of Jamming Attacks for the Physical-Layer Authentication

Haijun Tan, Zhuoyuan Li, Ning Xie, Jian Lü, Dusit Niyato

2023IEEE Transactions on Wireless Communications20 citationsDOI

Abstract

This paper concerns the problem of defending against the jamming attack for the Physical-Layer Authentication (PLA). The problem is important due to the fact that jamming attacks can make the legitimate receiver reject a legitimate signal or accept an impersonating signal. In this paper, we propose two jamming detection schemes to defend against jamming attacks for the PLA. The first scheme is the Jamming-Attack Detection (JAD) scheme, which exploits the difference of noise variances between the handshaking and communication stages. The second scheme is the Composite Jamming-Attack Detection (CJAD) scheme, which exploits the difference of noise variances between Alice and Bob. Moreover, we provide the theoretical analysis of the proposed schemes over wireless fading channels and derive their closed-form expressions. We implement our schemes and conduct extensive performance comparisons. Our theoretical analysis and simulation results show that if security is the priority, the CJAD scheme is the best option. If we further consider the overhead, the JAD scheme is the best option under the strategy of jamming attacks and the CJAD scheme may be a better option under the strategy of enhanced jamming attacks, especially for the larger power of a jamming signal.

Topics & Concepts

JammingComputer sciencePhysical layerComputer securityComputer networkOverhead (engineering)ExploitHandshakingNear-far problemAuthentication (law)Channel (broadcasting)Noise (video)WirelessTelecommunicationsCode division multiple accessArtificial intelligenceOperating systemImage (mathematics)ThermodynamicsPhysicsWireless Communication Security TechniquesAdvanced Authentication Protocols SecurityCryptographic Implementations and Security