摘要
现有的无线供电通信网络(Wireless powered communication networks,WPCN)只考虑在下行链路中进行能量传输,没有考虑信息传输的需求。实际上,在很多应用场景中需要考虑利用下行链路传输信息。如何制定发送策略来权衡各用户上行传输速率的公平性与最大化是WPCN中的研究热点。本文提出一种新的在强干扰蜂窝小区中进行能量与信息传输的设计方案,将下行无线信息与能量的同时传输(Simultaneous wireless information and power transfer,SWIPT)与无线供电通信网络相结合,实现基站与用户之间的下行能量传输与上下行双向信息传输。该方案通过上行功率分配、下行时间分配与波束成形以实现上下行最小传输速率的最大化,从而实现各用户上下行信息传输的性能与公平性的平衡。仿真结果表明,与传统的传输方式相比,本方案显著提高用户的最小传输速率。
The existing Wireless Powered Communication Networks (WPCN) only considers energy transmission in downlink, without considering the need for information transfer. In fact, it is necessary to consider using the downlink to transmit information in many application scenarios. How to formulate the transfer strategy to weigh the fairness and maximization of the uplink transfer rate of each user is a research hotspot in WPCN. This paper proposed a new design scheme for energy and information transfer in a strong interfering cell, in which the Simultaneous Wireless Information and Power Transfer (SWIPT) was combined with the wireless power communication network to implement downlink energy transfer and uplink and downlink two way information transfer between the base station and the user. In this scheme, uplink power allocation, downlink time allocation and beam forming were used to maximize the minimum rates of both uplink and downlink, thereby achieving a balance between performance and fairness of uplink and downlink information transfer for all users. The simulation results show that compared with the traditional transmission method, this scheme significantly improves the minimum transfer rate of the users.
作者
肖楠
李陶深
王哲
XIAO Nan;LI Taoshen;WANG Zhe(School of Computer,Electronics and Information,Guangxi University,Nanning,Guangxi,530004,China;Nanning University, Nanning,Guangxi,530200,China;Guangxi Colleges and Universities Key Laboratory of Parallel and Distributed Computing Technology,Nanning,Guangxi,530004,China)
出处
《广西科学》
CAS
2019年第3期267-275,共9页
Guangxi Sciences
基金
国家自然科学基金项目(61762010)资助
关键词
无线供电通信网络
无线携能通信
功率分配
时间分配
波束成形
wireless power communication networks
simultaneous wireless information and power transfer
power allocation
time allocation
beam forming