Litcius/Paper detail

Joint Optimization of Trajectory and Jamming Power for Multiple UAV-Aided Proactive Eavesdropping

Delin Guo, Lan Tang, Xinggan Zhang, Ying‐Chang Liang

2023IEEE Transactions on Mobile Computing18 citationsDOI

Abstract

This paper studies a novel wireless information surveillance scenario, where the legitimate party aims to eavesdrop on multiple suspicious communication links with the help of multiple unmanned aerial vehicles (UAVs). Each suspicious link is comprised of a UAV (transmitter) and its fixed destination. To improve the eavesdropping ability, cooperative legitimate UAVs emit jamming signals to reduce the capacities of suspicious channels and plan the flight trajectory to enhance the capacity of the eavesdropping channels. Considering the system dynamics, it is natural to model this sequential decision-making problem as a Markov Decision Process (MDP), which might be solved by reinforcement learning (RL). However, it is difficult to design a policy in RL that determines jamming powers satisfying the considered eavesdropping constraints. Therefore, we decompose the optimization process into two phases, 1) obtaining the non-learning-based optimal solver for jamming power allocation under each state, and 2) optimizing the policy of moving action by RL. We will show this decoupled optimization process also holds the optimality. Considering the flying safety, we will determine the individual moving policy for each legitimate UAV rather than a centralized policy that controls all UAVs. Finally, extensive simulations are conducted to demonstrate the effectiveness of the proposed solution.

Topics & Concepts

EavesdroppingComputer scienceMarkov decision processJammingReinforcement learningPartially observable Markov decision processTrajectoryProcess (computing)WirelessMarkov processComputer securityDistributed computingComputer networkMarkov chainMarkov modelTelecommunicationsArtificial intelligenceMachine learningAstronomyStatisticsThermodynamicsOperating systemPhysicsMathematicsUAV Applications and OptimizationWireless Communication Security TechniquesDistributed Control Multi-Agent Systems