继电器
波束赋形
吞吐量
最优化问题
计算机科学
控制理论(社会学)
传输(电信)
信噪比(成像)
无线
电子工程
算法
工程类
电信
功率(物理)
物理
人工智能
量子力学
控制(管理)
作者
Mohammadali Mohammadi,Batu K. Chalise,Himal A. Suraweera,Caijun Zhong,Gan Zheng,Ioannis Krikidis
标识
DOI:10.1109/tcomm.2016.2527785
摘要
We consider a full-duplex (FD) decode-and-forward system in which the time-switching protocol is employed by the multiantenna relay to receive energy from the source and transmit information to the destination. The instantaneous throughput is maximized by optimizing receive and transmit beamformers at the relay and the time-split parameter. We study both optimum and suboptimum schemes. The reformulated problem in the optimum scheme achieves closed-form solutions in terms of transmit beamformer for some scenarios. In other scenarios, the optimization problem is formulated as a semidefinite relaxation problem and a rank-one optimum solution is always guaranteed. In the suboptimum schemes, the beamformers are obtained using maximum ratio combining, zero-forcing, and maximum ratio transmission. When beamformers have closed-form solutions, the achievable instantaneous and delay-constrained throughput are analytically characterized. Our results reveal that beamforming increases both the energy harvesting and loop interference suppression capabilities at the FD relay. Moreover, simulation results demonstrate that the choice of the linear processing scheme as well as the time-split plays a critical role in determining the FD gains.
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