Energy-Optimal RAN Configurations for SWIPT IoT

2022 20th International Symposium on Modeling and Optimization in Mobile, Ad hoc, and Wireless Networks (WiOpt) Pub Date : 2022-09-19 DOI:10.23919/WiOpt56218.2022.9930622

G. Rizzo, M. Marsan, C. Esposito

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Abstract

Internet of Things (IoT) devices often have batteries of limited capacity, which are not easily replaced or recharged. This implies very short device lifetimes, and calls for a very careful device configuration to achieve the optimal trade-off between performance and power consumption. SWIPT (Simultaneous Wireless Information and Power Transfer) deals with this problem by harvesting energy at IoT devices from the received RF signals. Studying the efficiency of SWIPT in dealing with the energy and data transfer demands of IoT nodes leads to a number of open issues. In this paper, we devise an analytical model based on stochastic geometry for a SWIPT radio access network with a dense population of IoT users. With our model, it is possible to accurately study the impact of the system parameters on the key system performance indicators, while accounting in a realistic manner for device performance, and for the statistics of time scheduling at base stations. This allows us to understand (not without some surprise) what are the most effective strategies to minimize energy consumption in a SWIPT network, and what is their potential for energy savings.

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SWIPT IoT的能量最优RAN配置

物联网(IoT)设备通常具有容量有限的电池，不容易更换或充电。这意味着非常短的设备生命周期，并要求非常仔细的设备配置，以实现性能和功耗之间的最佳权衡。SWIPT(同步无线信息和电力传输)通过从接收的射频信号中收集物联网设备的能量来解决这个问题。研究SWIPT在处理物联网节点的能量和数据传输需求方面的效率会导致许多悬而未决的问题。在本文中，我们为具有密集物联网用户的SWIPT无线接入网设计了基于随机几何的分析模型。使用我们的模型，可以准确地研究系统参数对关键系统性能指标的影响，同时以现实的方式考虑设备性能，并统计基站的时间调度。这使我们能够理解(并非没有一些惊喜)在SWIPT网络中最小化能耗的最有效策略是什么，以及它们的节能潜力是什么。

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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2022 20th International Symposium on Modeling and Optimization in Mobile, Ad hoc, and Wireless Networks (WiOpt)

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