Stochastic amplify-and-forward schemes for multigroup multicast transmission in a distributed relay network

2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) Pub Date : 2015-08-31 DOI:10.1109/SPAWC.2015.7227097

Sissi Xiaoxiao Wu, Qiang Li, Wing-Kin Ma, A. M. So

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引用次数: 6

Abstract

In this paper, we study amplify-and-forward (AF) schemes to for multigroup multicast information delivery between long-distance users. The target scenario is a two-hop distributed one-way relay network where the transmitters, relays and receivers are all equipped with a single antenna. Assuming that channel state information (CSI) is perfectly known, our goal here is to design the AF weights at the relays so that the system rate performance can be optimized. A classic AF scheme in this context is to employ a rank-one beamformed AF (BF-AF) strategy with a max-min-fair (MMF) achievable rate objective. In this way, the semidefinite relaxation (SDR) technique is widely used to provide an (approximate) solution for the MMF problem. It is known that the achievable rate performance of the SDR-based BF-AF scheme tends to degrade seriously with the number of users served in the relay network. This motivates us to propose stochastic beamformed AF (SBF-AF) schemes to improve the achievable rate performance. The salient feature of the SBF-AF schemes is that it employs time-varying AF weights and bypass some inherent issues in the SDR-based BF-AF scheme. Our theoretical analysis and numerical results both show that the SBF-AF schemes can outperform the BF-AF scheme.

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分布式中继网络中多组多播传输的随机放大转发方案

本文研究了远距离用户间多组播信息传递的放大转发(AF)方案。目标场景是一个两跳分布式单向中继网络，其中发射器，中继和接收器都配备了单个天线。假设信道状态信息(CSI)是完全已知的，我们这里的目标是在继电器上设计AF权重，以便优化系统速率性能。在这种情况下，经典的自动对焦方案是采用具有最大-最小公平(MMF)可实现速率目标的一级波束形成自动对焦(BF-AF)策略。因此，半定松弛(SDR)技术被广泛应用于MMF问题的近似求解。已知基于sdr的BF-AF方案的可实现速率性能会随着中继网络中服务用户数量的增加而严重下降。这促使我们提出随机波束形成AF (SBF-AF)方案来提高可实现的速率性能。SBF-AF方案的显著特点是采用时变AF权值，绕过了基于sdr的BF-AF方案的一些固有问题。理论分析和数值结果均表明，SBF-AF方案优于BF-AF方案。

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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来源期刊

2015 IEEE 16th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC)

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