A novel transceiver architecture in the two-way relay channel with analog and digital beamforming

2015 International Conference on Wireless Communications & Signal Processing (WCSP) Pub Date : 2015-12-03 DOI:10.1109/WCSP.2015.7341245

Shiqi Gong, C. Xing, Zesong Fei, Jingming Kuang

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引用次数: 2

Abstract

In this paper, we propose a novel transceiver architecture at relay for multiple input, multiple output two-way relay channel (TWRC). This transceiver architecture consists of the analog beamforming in RF domain and the MMSE based digital processing at baseband, which is simplified as RF-MDP-MIMO architecture. Under the RF-MDP-MIMO architecture, the objective of this paper is to find the optimal relay transmit and receive beamformings that can achieve the boundary of the optimal capacity region with limited relay power. Specifically, by formulating the original optimization problem into two semidefinite programing (SDP) problems with rank-one constraints which can be effectively solved by the penalty function method, we can optimize relay transmit and receive beamformings alternatively. Then, the maximum achievable sum rate of TWRC can be obtained with the bisection method. Further, the achievable capacity region is realized. Numerical experiments are conducted to show that our proposed RF-MDP-MIMO architecture outperforms the RF-MIMO architecture in terms of the optimal achievable capacity region.

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采用模拟和数字波束形成的双向中继信道中的新型收发器结构

本文提出了一种适用于多输入、多输出双向中继信道(TWRC)的新型中继收发器结构。该收发器架构由射频域的模拟波束形成和基带基于MMSE的数字处理组成，简化为RF- mdp - mimo架构。在RF-MDP-MIMO架构下，本文的目标是在中继功率有限的情况下，找到能够达到最优容量区域边界的中继发送和接收波束形成。具体而言，通过将原优化问题转化为两个具有一级约束的半定规划问题(SDP)，并利用罚函数法进行有效求解，实现中继发送和接收波束形成交替优化。然后，采用对分法得到TWRC的最大可达和速率。进一步实现了可达到的容量区域。数值实验表明，我们提出的RF-MDP-MIMO架构在最优可达容量区域方面优于RF-MIMO架构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2015 International Conference on Wireless Communications & Signal Processing (WCSP)

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