Simultaneous wireless information and power transfer (SWIPT) is a remarkable technology to support both the data and the energy transfer in the era of Internet of Things (IoT). In this paper, we proposed a long-range optical wireless information and power transfer system utilizing retro-reflectors, a gain medium, a telescope internal modulator to form the resonant beam, achieving high-power and high-rate SWIPT. We adopt the transfer matrix, which can depict the beam modulated, resonator stability, transmission loss, and beam distribution. Then, we provide a model for energy harvesting and data receiving, which can evaluate the SWIPT performance. Numerical results illustrate that the proposed system can simultaneously supply 0$\sim$9 W electrical power and 18 bit/s/Hz spectral efficiency over 20 m distance.
翻译:同时的无线信息和电源传输(SWIPT)是支持物联网时代的数据和能源传输的一个了不起的技术,在这份文件中,我们提议建立一个远程光学无线信息和电源传输系统,利用反光反射器、增益介质、望远镜内部调制器形成共振光束,实现高功率和高速SWIPT。我们采用传输矩阵,可以描述波束调制、振振动稳定、传输损失和波束分布。然后,我们提供一个能源采集和接收模型,可以评价SWIPT的性能。数字结果表明,拟议的系统可以同时提供20米距离的0.00美元/sim$9 W 电力和18位/s/hz光谱效率。