Throughput and BER of wireless powered DF relaying in Nakagami-m fading  被引量：1

作　　者：Yan GAO Yunfei CHEN Aiqun HU 

机构地区：[1]School of Electronic Information, Nanjing College of Information Technology [2]College of Computer and Information, Hohai University [3]College of Information Science and Engineering, Southeast University

出　　处：《Science China(Information Sciences)》2017年第10期200-212,共13页中国科学（信息科学）（英文版）

基　　金：supported by Open Foundation of Engineering Research and Development Center for Nanjing College of Information Technology(Grant No.KF20150104);Research Project of Nanjing College of Information Technology(Grant No.YK20150102);Top-notch Academic Programs Project of Jiangsu Higher Education Institutions(Grant No.PPZY2015C242);supported in part by National Natural Science Foundation of China(Grant No.61571110)

摘　　要：Energy harvesting provides a promising solution to the extra energy requirement at the relay due to relaying. In this paper, the throughput and bit error rate of a decode-and-forward relaying system are studied using power splitting wireless power. Three different transmission scenarios are considered： instantaneous transmission, delay-or error-constrained transmission and delay-or error-tolerant transmission. For each scenario,exact expressions for the throughput and bit error rate are derived. Numerical results show that, for instantaneous transmission, the optimum splitting factor is not sensitive to the channel gain of the source-to-relay link.For delay-or error-constrained transmissions, the optimum splitting factor increases with the quality of the source-to-relay link and decreases with the quality of the relay-to-destination link. For delay-or error-tolerant transmissions, the optimum splitting factor is insensitive to the quality of the source-to-relay link.Energy harvesting provides a promising solution to the extra energy requirement at the relay due to relaying. In this paper, the throughput and bit error rate of a decode-and-forward relaying system are studied using power splitting wireless power. Three different transmission scenarios are considered： instantaneous transmission, delay-or error-constrained transmission and delay-or error-tolerant transmission. For each scenario,exact expressions for the throughput and bit error rate are derived. Numerical results show that, for instantaneous transmission, the optimum splitting factor is not sensitive to the channel gain of the source-to-relay link.For delay-or error-constrained transmissions, the optimum splitting factor increases with the quality of the source-to-relay link and decreases with the quality of the relay-to-destination link. For delay-or error-tolerant transmissions, the optimum splitting factor is insensitive to the quality of the source-to-relay link.

关 键 词：DECODE-AND-FORWARD energy harvesting power-splitting RELAYING 

分 类 号：TN92[电子电信—通信与信息系统]