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Joint Beamforming and Illumination Pattern Design for Beam-Hopping LEO Satellite Communications

Jing Wang, Chenhao Qi, Shui Yu, Shiwen Mao

2024IEEE Transactions on Wireless Communications18 citationsDOI

Abstract

Since hybrid beamforming (HBF) can approach the performance of fully-digital beamforming (FDBF) with much lower hardware complexity, we investigate the HBF design for beam-hopping (BH) low earth orbit (LEO) satellite communications (SatComs). Aiming at maximizing the sum-rate of totally illuminated beam positions during the whole BH period, we consider joint beamforming and illumination pattern design subject to the HBF constraints and sum-rate requirements. To address the non-convexity of the HBF constraints, we temporarily replace the HBF constraints with the FDBF constraints. Then we propose an FDBF and illumination pattern random search (FDBF-IPRS) scheme to optimize illumination patterns and fully-digital beamformers using constrained random search and fractional programming methods. To further reduce the computational complexity, we propose an FDBF and illumination pattern alternating optimization (FDBF-IPAO) scheme, where we relax the integer illumination pattern to continuous variables and after finishing all the iterations we quantize the continuous variables into integer ones. Based on the fully-digital beamformers designed by the FDBF-IPRS or FDBF-IPAO scheme, we propose an HBF alternating minimization algorithm to design the hybrid beamformers. Simulation results show that the proposed schemes can achieve satisfactory sum-rate performance for BH LEO SatComs.

Topics & Concepts

BeamformingCommunications satelliteJoint (building)Computer scienceSatelliteTelecommunicationsBeam (structure)Frequency-hopping spread spectrumPhysicsOpticsEngineeringAerospace engineeringArchitectural engineeringSatellite Communication SystemsAntenna Design and OptimizationOptical Wireless Communication Technologies
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