Litcius/Paper detail

Game Theoretic Physical Layer Authentication for Spoofing Detection in UAV Communications

Yi Zhou, Phee Lep Yeoh, Kyeong Jin Kim, Zheng Ma, Yonghui Li, Branka Vucetic

2022IEEE Transactions on Vehicular Technology38 citationsDOI

Abstract

In this paper, we propose a game theoretic framework for secure physical layer authentication (PLA) by applying the spatial correlations of received signal strength (RSS) in the air-to-ground channels between an unmanned aerial vehicle (UAV), a legitimate transmitter, and a spoofer. Based on our hypothesis model, we first derive the false alarm rate and miss detection rate for the UAV receiver. We then formulate a zero-sum PLA game where the UAV receiver selects its RSS detection threshold while the spoofer selects its attack probability to maximize their respective utilities. We derive the Nash equilibrium (NE) and its existence condition for the proposed PLA game. Monte Carlo simulation results accurately verify our analytical expressions for the false alarm rate and miss detection rate. Numerical results highlight the complex interplay between the detection threshold, spoofing attack probability and UAV altitude in the derived NE.

Topics & Concepts

Spoofing attackRSSFalse alarmConstant false alarm rateTransmitterPhysical layerComputer scienceReal-time computingAuthentication (law)Game theoryMonte Carlo methodAlgorithmSimulationComputer networkArtificial intelligenceWirelessComputer securityTelecommunicationsMathematicsStatisticsChannel (broadcasting)Mathematical economicsOperating systemUAV Applications and OptimizationWireless Communication Security Techniques