Optimization of mutual information of AF-DSTBCs over the random set relay channel

2010 IEEE 11th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC) Pub Date : 2010-06-20 DOI:10.1109/SPAWC.2010.5671269

Qiang Xue, G. Abreu

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Abstract

We consider cooperative relaying systems employing amplify-and-forward (AF) distributed space-time block codes (DSTBCs) in which only backward channel-state-information (CSI) is known at relays and destination. For such systems, we study the particular case where, in order to minimize overhead, each of N relays decide independently whether to join the cooperation with basis on the received signal as compared to a certain threshold. Since in such a scheme the number of active relays K at a given realization is random, the channel becomes a random set relay channel (RSRC). The mutual information (MI) of AF-DSTBC in the RSRC are analyzed, addressing the ergodic delay-tolerant case. Results on MI are given in the form of three different upper bounds, each offering a different trade-offs of complexity and closeness. It is found that the maximal MI is not achieved under full-time-all-relay cooperation (K = N), even if the total power at the receiver increases with K. It is also shown that the optimum power allocation depends on the threshold, such that the MI is maximized not under equal power allocation, but rather when more power is allocated to the second stage (relaying).

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随机中继信道上af - dstbc互信息优化

我们考虑采用扩宽转发(AF)分布式空时分组码(dstbc)的协作中继系统，其中中继和目的地只知道反向信道状态信息(CSI)。对于这样的系统，我们研究了在特定情况下，为了使开销最小化，N个中继中的每一个都根据接收到的信号相对于某一阈值独立决定是否加入合作。由于在这种方案中，在给定的实现中活动中继的数量K是随机的，因此该信道成为随机集中继信道(RSRC)。分析了AF-DSTBC在RSRC中的互信息(MI)，解决了遍历时延容忍情况。MI的结果以三个不同上界的形式给出，每个上界都提供了复杂性和亲密性的不同权衡。研究发现，即使接收端总功率随K的增加而增加，在全时间-全中继合作(K = N)下，也不能达到最大MI。研究还表明，最优功率分配取决于阈值，因此MI不是在功率分配相等的情况下达到最大，而是在向第二级(中继)分配更多功率时达到最大。

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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2010 IEEE 11th International Workshop on Signal Processing Advances in Wireless Communications (SPAWC)

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