Litcius/Paper detail

Secrecy-Rate Optimization of Double RIS-Aided Space–Ground Networks

Tiep M. Hoang, Chao Xu, Alireza Vahid, Hoang Duong Tuan, Trung Q. Duong, Lajos Hanzo

2023IEEE Internet of Things Journal30 citationsDOIOpen Access PDF

Abstract

The physical-layer security (PLS) of a space–ground communication system is examined. To improve the security performance, a pair of reconfigurable intelligent surfaces (RISs) is integrated into the system and benchmarked against a scheme, where there is only a single RIS close to the ground station. As for the double-RIS scenario, we formulate a secrecy rate maximization problem, and then propose an alternating optimization (AO) algorithm for jointly optimizing three vectors, namely, the beamformer of the ground station and the reflecting vectors of two different RISs. Similarly, as for the single-RIS case, we also propose another AO algorithm for optimizing a pair of vectors, namely, the beamformer of the ground station and the reflecting vector of the single RIS. Both the double-RIS and the single-RIS AO algorithms are developed on the basis of the first-order Taylor expansion and Dinkelbach’s method, which allow us to approximate nonconvex optimization problems by convex ones. Our results demonstrate that the proposed double-RIS scheme outperforms the single-RIS benchmark scheme in terms of its security.

Topics & Concepts

Computer scienceMaximizationBenchmark (surveying)Mathematical optimizationOptimization problemScheme (mathematics)Physical layerAlgorithmTelecommunicationsMathematicsWirelessMathematical analysisGeodesyGeographyAdvanced Wireless Communication TechnologiesSatellite Communication SystemsUAV Applications and Optimization
Secrecy-Rate Optimization of Double RIS-Aided Space–Ground Networks | Litcius