基于无线能量收集的 NOMA 网络的上行链路性能分析

Mobile Networks and Applications Pub Date : 2024-04-18 DOI:10.1007/s11036-024-02326-8

Dipen Bepari, Soumen Mondal, Prakash Pareek, Nishu Gupta

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引用次数: 0

摘要

本文对支持无线能量采集（WEH）的传感器网络进行了性能分析，该网络在上行链路传输之前从环境射频（RF）信号中提取能量。利用基于时间切换（TS）的协议在能量采集（EH）和数据传输模式之间交替使用传感器节点。采用非正交多址（NOMA）技术旨在提高传感器网络在上行链路总和速率和中断概率方面的性能。为了优化资源分配，我们提出了一种不等工作时间帧（OTF）方案，根据信道增益质量确定数据传输和能量收集间隔。仿真结果表明，NOMA 比正交多址接入（OMA）更具优势，NOMA 可在同一频段内容纳更多信号，从而实现更高的总和速率，但代价是中断性能略有下降。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Uplink Performance Analysis of Wireless Energy Harvesting-Enabled NOMA-based Networks

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Uplink Performance Analysis of Wireless Energy Harvesting-Enabled NOMA-based Networks

This article presents a performance analysis of wireless energy harvesting (WEH)-enabled sensor networks that extract energy from ambient radio frequency (RF) signals prior to uplink transmission. A time-switching (TS)-based protocol is utilized to alternate sensor nodes between energy harvesting (EH) and data transmission modes. Implementing the non-orthogonal multiple access (NOMA) technique aims to boost the sensor network’s performance regarding uplink sum rate and outage probability. To optimize resource allocation, we propose an unequal operating time frame (OTF) scheme that determines data transmission and energy harvesting intervals based on channel gain quality. Simulation results affirm the superiority of NOMA over orthogonal multiple access (OMA), with NOMA enabling higher sum rates by accommodating more signals within the same frequency band, though at the expense of slightly degraded outage performance.

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Mobile Networks and Applications

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