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Integrated STAR-RIS and UAV for Satellite IoT Communications: An Energy-Efficient Approach

William D. Lukito, Wei Xiang, Phu Lai, Peng Cheng, Chang Liu, Kan Yu, Xiaoyan Zhu

2024IEEE Internet of Things Journal13 citationsDOI

Abstract

In this study, we investigate the use of simultaneous transmitting and reflecting reconfigurable intelligent surfaces (STAR-RISs) mounted on energy-efficient uncrewed aerial vehicles (UAVs) to support satellite Internet of Things (IoT) communications served by low-Earth orbit (LEO) satellites. First, we propose a STAR-RIS-equipped UAV framework termed integrated STAR-RIS and UAV (ISRU). Then, we aim to optimize energy efficiency by jointly adjusting the UAV’s flight path, STAR-RIS phase-shifts, and power allocation among IoT devices, all while maintaining equitable user fairness level. However, solving this problem presents considerable challenges due to the nonconvexity and NP-hardness properties of the objective function and constraints. To address, our work introduces a Dinkelbach-based alternating optimization (AO) procedure termed integrated trajectory, phase-shift, and power allocation (ITPP). Our simulation results show that the integration of ISRU and ITPP can achieve 67% higher sum-rates than non-ISRU schemes and save up to 40% more energy than unoptimized trajectory schemes.

Topics & Concepts

Computer scienceSatelliteCommunications satelliteInternet of ThingsEnergy (signal processing)Satellite broadcastingStar (game theory)TelecommunicationsRemote sensingEmbedded systemAerospace engineeringEngineeringGeologyMathematicsStatisticsMathematical analysisSatellite Communication SystemsSpacecraft Design and TechnologySpace Satellite Systems and Control
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