Adaptive wireless-powered network based on CNN near-field positioning by a dual-band metasurface

With the improvement of industry, the connectivity of electronic devices gradually shift from wired to wireless. As a solution for power delivery, the non-contact power transfer holds promising ways to charge for moving terminals, enabling battery-free sensing, processing, and communication. Based o...

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Veröffentlicht in:Nature communications 2024-11, Vol.15 (1), p.10358-11
Hauptverfasser: Xia, De Xiao, Han, Jia Qi, Mu, Ya Jie, Guan, Lei, Wang, Xin, Ma, Xiang Jin, Zhu, Li Hao, Lv, Tian Guang, Liu, Hai Xia, Shi, Yan, Li, Long, Cui, Tie Jun
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Sprache:eng
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Zusammenfassung:With the improvement of industry, the connectivity of electronic devices gradually shift from wired to wireless. As a solution for power delivery, the non-contact power transfer holds promising ways to charge for moving terminals, enabling battery-free sensing, processing, and communication. Based on a dual-band metasurface, this study proposes an adaptive wireless-powered network (AWPN) to realize the simultaneous wireless localization and non-contact power supply. It first achieves localization with 3 cm resolution on a single-input single-output (SISO) system, by combining space-time-coding (STC) and convolutional neural network (CNN). With precise position information, AWPN real-time aligns power beams to the terminals for stable energy transmission. Then, battery-free terminals enable to perceive the environmental data and uploads the results. From the measurement results, AWPN gets more than 98% CNN classification accuracy and can tolerate certain environmental changes. Thus, being adaptive and contactless, our study will propel the advancement in Internet of Things (IoT), intelligent metasurface, and the robot industry. Here the AUs showcase adaptive wireless-powered network (AWPN) that utilizes a dual-band metasurface to enable simultaneous wireless localization and non-contact power supply. It achieves a localization resolution of 3 cm using a single-input single-output (SISO) system, marking a significant advancement in the accuracy and efficiency of wireless sensing and energy transfer technologies.
ISSN:2041-1723
2041-1723
DOI:10.1038/s41467-024-54800-2