Research Article
Research on Energy Efficiency in Wireless Powered Communication Network with User Cooperative Relay
@INPROCEEDINGS{10.1007/978-3-030-32216-8_31, author={Gang Feng and Xizhong Qin and Zhenhong Jia and Yongming Li}, title={Research on Energy Efficiency in Wireless Powered Communication Network with User Cooperative Relay}, proceedings={Simulation Tools and Techniques. 11th International Conference, SIMUtools 2019, Chengdu, China, July 8--10, 2019, Proceedings}, proceedings_a={SIMUTOOLS}, year={2019}, month={10}, keywords={Wireless powered communication network Energy efficiency Harvesting energy Optimization iterative algorithm}, doi={10.1007/978-3-030-32216-8_31} }- Gang Feng
Xizhong Qin
Zhenhong Jia
Yongming Li
Year: 2019
Research on Energy Efficiency in Wireless Powered Communication Network with User Cooperative Relay
SIMUTOOLS
Springer
DOI: 10.1007/978-3-030-32216-8_31
Abstract
A user collaborative relay wireless powered communication network (UCR-WPCN) is studied in this paper, where users can harvest energy from the dedicated power device, named hybrid access point (HAP), and then transmit the information to HAP. Our goal is to study the total energy efficiency (EE) maximization of users in UCR-WPCN via joint time allocation and power control while meeting minimum rate requirements. However, because this problem is a non-convex, it is difficult for us to solve it. Then, we can use fractional programming principle theory and variable substitution to convert it into a standard convex optimization problem. Finally, we proposed an efficient optimization iterative algorithm in order to find the optimal solution. The simulation results show that the UCR plan can improve the user’s information transmission rate and significantly improve the user’s total energy efficiency in the system, compared with the non-cooperative relay transmission scheme.