Litcius/Paper detail

UAV-Enabled Secure Communication With Finite Blocklength

Yuntian Wang, Xiaobo Zhou, Zhihong Zhuang, Linlin Sun, Yuwen Qian, Jinhui Lu, Feng Shu

2020IEEE Transactions on Vehicular Technology35 citationsDOI

Abstract

In the finite blocklength scenario, which is suitable for practical applications, a method of maximizing the average effective secrecy rate (AESR) is proposed for a UAV-enabled secure communication by optimizing the UAV's trajectory and transmit power subject to the UAV's mobility constraints and transmit power constraints. To address the formulated non-convex optimization problem, it is first decomposed into two non-convex subproblems. Then the two subproblems are converted respectively into two convex subproblems via the first-order approximation. Finally, an alternating iteration algorithm is developed by solving the two subproblems iteratively based on successive convex approximation (SCA) technique. Numerical results show that our proposed scheme can achieve a 6% to 13% improvement on the AESR performance compared with the benchmark schemes.

Topics & Concepts

Benchmark (surveying)Mathematical optimizationConvex optimizationTransmitter power outputComputer scienceRegular polygonConvex functionSecrecyOptimization problemPower (physics)Scheme (mathematics)MathematicsTelecommunicationsTransmitterGeodesyGeographyComputer securityGeometryQuantum mechanicsPhysicsChannel (broadcasting)Mathematical analysisUAV Applications and OptimizationAdvanced Wireless Communication TechnologiesWireless Communication Security Techniques