Wireless Power Transfer and Data Communication Cognitive Radio through Two-Coil Inductive Channel

2019 IEEE Global Communications Conference (GLOBECOM) Pub Date : 2019-12-01 DOI:10.1109/GLOBECOM38437.2019.9013290

Safa Zouaoui, Malek Souilem, W. Dghais, A. Radwan, S. Barmada, M. Tucci

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引用次数: 2

Abstract

This paper investigates two-coil inductive channel for an efficient Wireless Power Transfer (WPT), while intelligently enabling high-data rate communication. The analysis is based on the power efficiency and channel capacity performance, which are determined based on the multiport scattering (S)-parameters numerical simulation results, using a lumped equivalent circuit model. Different access points and configuration scenarios, along with the decoupling filters design consideration of power and data links, were compared in order to cognitively share the two-coil inductive channel, for handling both high-power signal and low-power modulated high- frequency data signal. The performance of the transmission and isolation between the power and data link is evaluated. The theoretical channel capacity of the proposed two-coil circuit is calculated, as a function of the coupling coefficient k12, as well as in the presence of an additive white Gaussian noise and signal to noise ratio. This paper adds to the intelligence and cognition of the radio, to efficiently use the limited available spectrum for broadband communications, in addition to power transmission, simultaneously.

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基于双线圈感应信道的无线电力传输与数据通信认知无线电

本文研究了一种高效无线电力传输(WPT)的双线圈感应信道，同时智能地实现高数据速率通信。基于多端口散射参数的数值模拟结果，采用集总等效电路模型确定了功率效率和信道容量性能。比较了不同接入点和配置方案，以及电源和数据链路的去耦滤波器设计考虑，以认知共享双线圈电感通道，同时处理大功率信号和低功率调制高频数据信号。对电源和数据链路之间的传输和隔离性能进行了评估。计算了双线圈电路的理论信道容量，作为耦合系数k12的函数，以及存在加性高斯白噪声和信噪比的情况。本文增加了对无线电的智能化和认知，有效地利用有限的可用频谱进行宽带通信，同时进行电力传输。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2019 IEEE Global Communications Conference (GLOBECOM)

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