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Robust Secure Beamforming for Wireless Powered Cognitive Satellite-Terrestrial Networks

Zhi Lin, Min Lin, Wei‐Ping Zhu, Jun-Bo Wang, Julian Cheng

2020IEEE Transactions on Cognitive Communications and Networking88 citationsDOI

Abstract

This article addresses the security problem for wireless powered cognitive satellite-terrestrial network, where a multibeam satellite sub-network shares the portion of millimeter wave bands with multiple cellular networks, each consisting of a base station, several mobile users (MUs) and energy receivers (ERs). Considering that the ERs are potential eavesdroppers of the MUs, and only imperfect knowledge of the angles of departure for the wiretap channels is available, we aim at maximizing aggregated rate of the considered network while guaranteeing the signal-to-interference-plus-noise ratio requirements of the MUs, the energy harvesting thresholds and the secrecy constraints at ERs. Since the formulated optimization problem is mathematically intractable, we exploit a discretization method and the Taylor expansion method to transform the non-convex objective and constraints into convex ones, and then propose an iterative beamforming (BF) algorithm to solve the problem. Furthermore, we present a combined multibeam scheme to obtain suboptimal BF weight vectors with low computational burden. Finally, simulation results reveal that the proposed BF schemes can efficiently improve the aggregated rate with fast convergence compared to the benchmark schemes.

Topics & Concepts

Computer scienceBeamformingBase stationWirelessOptimization problemBenchmark (surveying)Iterative methodMathematical optimizationComputer networkTelecommunicationsAlgorithmMathematicsGeographyGeodesySatellite Communication SystemsEnergy Harvesting in Wireless NetworksUAV Applications and Optimization
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