A Low Complexity Protocol for Relay Channels Employing Rateless Codes and Acknowledgement

2006 IEEE International Symposium on Information Theory Pub Date : 2006-07-09 DOI:10.1109/ISIT.2006.262004

Y. Liu

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引用次数: 33

Abstract

We provide a low complexity communication protocol for relay channels that can achieve a significant rate reliably even when a code word spans only finite number of fading blocks on average. Both full duplex and half duplex relay are considered. In the past, when a fixed rate code word spans a finite number of fading blocks, the capacity is zero. Therefore, a large amount of research has tried to reduce outage probability and increase throughput, such as the high signal-to-noise ratio (SNR) diversity-and-multiplexing-gain-tradeoff study of relay channels. Differently, the protocol in this paper achieves a significant information rate with asymptotically zero error probability (no outage) when the number of information bits represented by a code word increases to infinity. This performance is achieved by employing rateless codes and acknowledgements so that the destination obtains just enough mutual information to decode. This approach has the advantages that the protocol is not channel statistics dependent, has low complexity, is power efficient, has high performance, and can be easily generalized to other network communication settings

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采用无速率码和确认的低复杂度中继信道协议

我们为中继信道提供了一种低复杂度的通信协议，即使一个码字平均只跨越有限数量的衰落块，也能可靠地实现显著的速率。考虑了全双工和半双工继电器。在过去，当一个固定速率码字跨越有限数量的衰落块时，容量为零。因此，大量的研究试图降低中断概率和提高吞吐量，如中继信道的高信噪比分集与复用增益权衡研究。不同的是，当一个码字表示的信息比特数增加到无穷大时，本文协议实现了显著的信息率，且错误概率渐近为零(无中断)。这种性能是通过使用无速率码和确认来实现的，这样目的地就可以获得足够的相互信息来解码。该方法的优点是协议不依赖于信道统计，复杂度低，节能，性能高，并且可以很容易地推广到其他网络通信设置中

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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2006 IEEE International Symposium on Information Theory

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