Distributed Interleave-Division Multiplexing Space-Time Codes for coded relay networks

2009 6th International Symposium on Wireless Communication Systems Pub Date : 2009-09-07 DOI:10.1109/ISWCS.2009.5285280

P. Weitkemper, D. Wübben, K. Kammeyer

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引用次数: 9

Abstract

In this paper the application of the recently proposed Interleave-Division Multiplexing Space-Time Codes (IDM-STC) in coded relay networks is investigated. IDM-STC are a very flexible scheme to exploit space diversity with the benefits of IDM such as robustness against asynchronism and efficient iterative detection. While IDM-STC have been investigated for MIMO systems, relay networks induce additional constraints like imperfect decoding at the relay and limited cooperation. Consequently, not only the choice of the diversity scheme, but also the applied relay functionality significantly influences the overall performance. In this paper different relay schemes in combination with IDM-STC are considered for coded relay networks. Amplify-Forward (AF) does not assume any signal processing at the relays and just forwards the received signal. Decode-Forward (DF) fully decodes the received signal which can lead to error propagation. Another relaying scheme called Estimate-Forward (EF), which combines the advantages of AF and DF, was recently extended to coded systems and is called Decode-Estimate-Forward (DEF). A coded IDM-STC relay system with different relay schemes is investigated to show the good performance of IDM-STC combined with DEF in realistic scenarios with small overhead and robustness against asynchronism.

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编码中继网络的分布式交错多路空时码

本文研究了最近提出的交错分复用空时码(IDM-STC)在编码中继网络中的应用。IDM- stc是一种非常灵活的利用空间分集的方案，具有IDM的优点，如对异步的鲁棒性和高效的迭代检测。虽然IDM-STC已经被研究用于MIMO系统，但中继网络会产生额外的约束，如中继解码不完美和有限的合作。因此，不仅是分集方案的选择，所应用的中继功能也会对整体性能产生重大影响。本文考虑了编码中继网络中与IDM-STC相结合的不同中继方案。放大-前转(AF)在继电器中不承担任何信号处理，只是转发接收到的信号。译码转发(DF)完全解码接收信号，这可能导致错误传播。另一种中继方案称为前向估计(EF)，它结合了AF和DF的优点，最近被扩展到编码系统，称为解码-前向估计(DEF)。研究了采用不同中继方案的编码IDM-STC中继系统，结果表明IDM-STC与DEF相结合在实际场景下具有良好的性能，开销小，抗异步性强。

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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2009 6th International Symposium on Wireless Communication Systems

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