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After providing an overview of the IoT network. the wireless power transfer system is presented. It can be expressed as a state-space model where sensors deploy to get state information. Then. an innovative IoT communication infrastructure is proposed for monitoring and controlling the WPT system. Based on the communication network. the Kalman filter based state estimation and optimal feedback controller are developed. Simulation results show that the proposed approach outperform the existing method. This paper can serve as a step for future research on the IoT communication networking as well as wireless information and power transfer communities. Although our proposed system model and algorithm are useful for WPT applications. the work presented here has some limitations. Therefore. further investigations will include the following aspects: • Considering the networked induced time-varying delay is one of our future work [36]. • In order to obtain better performance. an adaptive control algorithm with delay should be consider in future research.
