Litcius/Paper detail

Multi-User Physical-Layer Authentication and Classification

Ning Xie, Mingrui Sha, Tianxing Hu, Haijun Tan

2023IEEE Transactions on Wireless Communications18 citationsDOI

Abstract

This paper concerns the problem of authenticating different transmitters at the physical layer in a multi-user scenario. In this paper, we propose two tag-based Physical-Layer Authentication (PLA) schemes in a multi-user scenario. We name the first scheme as the Multi-User Physical Layer Authentication and Classification (MU-PLAC) scheme, which not only detects an impersonation attack but also achieves multi-user classification. For further improving the performance of the MU-PLAC scheme for a two-user scenario, we propose an enhanced version of the MU-PLAC scheme by elaborately designing the tags of two legitimate users. We name the second scheme as the Enhanced Multi-User Physical Layer Authentication and Classification (EMU-PLAC) scheme. We provide the theoretical analysis of the proposed schemes over wireless fading channels and derive their closed-form expressions. We implement the proposed schemes and conduct extensive performance comparisons. Our simulation results show that, for a two-user scenario, the EMU-PLAC scheme provides better classification accuracy and authentication accuracy as compared with the MU-PLAC scheme.

Topics & Concepts

Computer sciencePhysical layerScheme (mathematics)Authentication (law)WirelessComputer networkComputer securityTelecommunicationsMathematicsMathematical analysisWireless Communication Security TechniquesWireless Signal Modulation ClassificationCooperative Communication and Network Coding