协同无线网络中能量辅助中继技术性能分析

T. Aruna, N. S. Ponmani, T. C. Anbuselvi
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引用次数: 2

摘要

未来5G无线网络对能效和频谱效率的要求更高。为了提高无线网络在衰落信道上的能量利用率,可以采用射频能量收集技术。提出了一种能量辅助放大转发(EAF)协同中继协议。为了最大限度地减少电池的能量消耗,在协作无线网络的中继节点上采用了基于功率分割(PS)的同步无线信息和功率传输(SWIPT)技术。PS技术将从接入点(AP)接收到的信号分成两个不同功率的流。第一流进入信息接收模块,下一流进入继电器中的能量采集器模块。建立了EAF协议的容量和吞吐量等性能参数的解析模型和方程,并利用MATLAB R2013a将其与能量辅助解码和转发(EDF)协议进行了比较。结果表明,EAF中继协议的容量和吞吐量分别比EDF中继协议高8.6%和45%。
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Performance Analysis of Energy Assisted Relaying Techniques in Cooperative Wireless Networks
Future 5G wireless networks demands for higher energy efficiency and spectral efficiency. To improve the energy efficiency of the wireless networks over fading channels, RF energy harvesting technique can be employed. In this paper, Energy-assisted Amplify and Forward (EAF) cooperative relay protocol has been proposed. To minimize the energy consumption of the battery, Power-Splitting (PS) based Simultaneous Wireless Information and Power Transfer (SWIPT) technique has been adopted in the relay nodes of cooperative wireless networks. The PS technique splits the received signal from the Access Point (AP) into two streams of different power. First stream goes to the information receiver module and the next stream goes to the energy harvester module in the relay. Analytical model and equations have been developed for the performance parameters such as capacity and throughput of the EAF protocol and they have been compared with the Energy-assisted Decode and Forward (EDF) protocol using MATLAB R2013a. It is observed that the capacity and throughput of the EAF relay protocol is 8.6% and 45% better than the EDF relay protocol respectively.
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