Distributed space-time block coding for cooperative networks with multiple-antenna nodes

1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005. Pub Date : 2005-12-13 DOI:10.1109/CAMAP.2005.1574181

S. Yiu, R. Schober, L. Lampe

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引用次数: 25

Abstract

In this paper, we present an extension to our previous work on distributed space-time block coding where we considered cooperative networks with a large set of single-antenna decode-and-forward relays N. Here, we consider the general case where each relay node is equipped with N/sub T/ antennas and the destination node has N/sub R/ antennas. It is assumed that at any given time only a small, a priori unknown subset of nodes S C N is active. In the proposed scheme, the signal transmitted by an active node is the product of an information-carrying space-time block code (STBC) matrix, which is identical for all nodes, and a unique node signature matrix. It is shown that existing STBCs designed for N/sub c/ /spl ges/ 2 co-located antennas are a favorable choice for the code matrix guaranteeing a diversity order of d = min {N/sub c/N/sub R/, N/sub T/N/sub S/N/sub R/} if ns nodes are active. Simulation results show that a considerable gain can be achieved by using multiple-antenna nodes even if the antennas are highly correlated.

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多天线节点协同网络的分布式空时分组编码

在本文中，我们对之前的分布式空时分组编码工作进行了扩展，其中我们考虑了具有大量单天线译码转发中继N的协作网络，这里我们考虑了每个中继节点配备N/sub T/天线，目的节点配备N/sub R/天线的一般情况。假设在任何给定的时间，只有一个小的，先验未知的节点S C N子集是活动的。在该方案中，活动节点传输的信号是一个携带信息的空时分组码矩阵(STBC)和一个唯一的节点签名矩阵的乘积，该矩阵对所有节点都是相同的。结果表明，在N/sub / /spl / 2共定位天线下设计的现有stbc是保证码矩阵分集阶数d = min {N/sub c/N/sub R/， N/sub T/N/sub S/N/sub R/}的较好选择。仿真结果表明，即使天线高度相关，使用多天线节点也能获得可观的增益。

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1st IEEE International Workshop on Computational Advances in Multi-Sensor Adaptive Processing, 2005.

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