IRS-Aided Microwave Power Transfer Using Curve Fitting-Based Phase Optimization

This study aims to enhance the transmission efficiency of microwave power transfer, which has garnered significant attention as a method of wireless power supply for IoT devices and drones, by using Intelligent Reflecting Surface (IRS). IRS is a plate-shaped device that can control the reflection characteristics of radio waves, and it is expected to improve the transmission efficiency when placed between a wireless transmitter and a wireless receiver. However, existing methods of reflection phase optimization for IRS are predominantly based on sequential feedback or a small number of discrete reflection phases, both of which have problems, including feedback overhead and beam shape limitations. In this paper, we propose a novel reflection phase optimization method based on curve fitting. This approach is capable of continuous reflection phase control and optimization of the reflection phase of all reflective elements simultaneously. Through numerical simulation and actual experiments using an implemented IRS prototype, it was observed that the proposed method enhanced the received power by up to 4 dB compared to a conventional sequential optimization method. However, it was also observed that the range limitation of the reflection phase in the implemented IRS hindered the effectiveness of the proposed method.

IRS-Aided Microwave Power Transfer Using Curve Fitting-Based Phase Optimization

Akise Kumashiro, Kazuhiro Kizaki, The University of Osaka; Takuya Fujihashi, Osaka University; Shinya Sugiura, The University of Tokyo; Hiroki Wakatsuchi, Nagoya Institute of Technology; Takashi Watanabe, Osaka University; Shunsuke Saruwatari, University of Osaka