Optimal Operation of Active RIS-Aided Wireless Powered Communications in IoT Networks

Waqas Khalid, A. -A. A. Boulogeorgos, Trinh Van Chien, Junse Lee, Howon Lee, Heejung Yu
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Abstract

Wireless-powered communications (WPCs) are increasingly crucial for extending the lifespan of low-power Internet of Things (IoT) devices. Furthermore, reconfigurable intelligent surfaces (RISs) can create favorable electromagnetic environments by providing alternative signal paths to counteract blockages. The strategic integration of WPC and RIS technologies can significantly enhance energy transfer and data transmission efficiency. However, passive RISs suffer from double-fading attenuation over RIS-aided cascaded links. In this article, we propose the application of an active RIS within WPC-enabled IoT networks. The enhanced flexibility of the active RIS in terms of energy transfer and information transmission is investigated using adjustable parameters. We derive novel closed-form expressions for the ergodic rate and outage probability by incorporating key parameters, including signal amplification, active noise, power consumption, and phase quantization errors. Additionally, we explore the optimization of WPC scenarios, focusing on the time-switching factor and power consumption of the active RIS. The results validate our analysis, demonstrating that an active RIS significantly enhances WPC performance compared to a passive RIS.
物联网网络中主动式 RIS 辅助无线供电通信的优化运行
无线供电通信(WPC)对于延长低功耗物联网(IoT)设备的使用寿命越来越重要。此外,可重构智能表面(RIS)可以通过提供替代信号路径来抵消阻塞,从而创造有利的电磁环境。WPC 和 RIS 技术的战略整合可显著提高能量传输和数据传输效率。然而,无源 RIS 在 RIS 辅助的级联链路上会出现双重衰减。在本文中,我们提出在支持 WPC 的物联网网络中应用主动式 RIS,并利用可调参数研究了主动式 RIS 在能量传输和信息传输方面增强的灵活性。我们结合信号放大、有源噪声、功耗和相位量化误差等关键参数,推导出了遍历率和中断概率的闭式表达式。此外,我们还探讨了 WPC 方案的优化问题,重点关注有源 RIS 的时间开关因子和功耗。结果验证了我们的分析,表明与被动 RIS 相比,主动 RIS 能显著提高 WPC 性能。
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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