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High-performance cost efficient simultaneous wireless information and power transfers deploying jointly modulated amplifying programmable metasurface

Xin Wang, Jiaqi Han, Guan Xuan Li, De Xiao Xia, Ming‐Yang Chang, Jin Xiang, Hao Xue, Peng Xu, Rui Jie Li, Kun Yi Zhang, Hai Xia Liu, Long Li, Tie Jun Cui

2023Nature Communications63 citationsDOIOpen Access PDF

Abstract

Programmable metasurfaces present significant capabilities in manipulating electromagnetic waves, making them a promising candidate for simultaneous wireless information and power transfer (SWIPT), which has the potential to enable sustainable wireless communication in complex electromagnetic environments. However, challenges remain in terms of maximum power transmission distance and stable phase manipulation with high-power scattered waves. Additionally, waveform limitations restrict average scattered power and rectifier conversion efficiency, affecting data transmission rates and energy transmission distance. Here we show an amplifying programmable metasurface (APM) and a joint modulation method to address these challenges. The APM mitigates the peak-to-average power ratio and improves maximum power, phase response stability, average output power, and rectifier conversion efficiency. Through experimental validation, we demonstrate the feasibility of the SWIPT system, showcasing simultaneous LED array powering and movie video transmission. This innovative SWIPT system holds promise for diverse applications, including 6 G wireless communications, IoT, implanted devices, and cognitive radio networks.

Topics & Concepts

WirelessComputer scienceTransmission (telecommunications)Wireless power transferMaximum power transfer theoremRectifier (neural networks)Power transmissionWaveformPower (physics)Electronic engineeringData transmissionElectrical engineeringTelecommunicationsComputer hardwareEngineeringPhysicsArtificial neural networkStochastic neural networkMachine learningRadarRecurrent neural networkQuantum mechanicsEnergy Harvesting in Wireless NetworksMetamaterials and Metasurfaces ApplicationsAdvanced Wireless Communication Technologies
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