On the optimality of lattice space-time (LAST) coding

H. E. Gamal, G. Caire, M. O. Damen
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引用次数: 2

Abstract

In this paper, we introduce the class of lattice space-time (LAST) codes. We show that these codes achieve the optimal diversity-vs-multiplexing tradeoff defined by Zheng and Tse under generalized minimum Euclidean distance lattice decoding. Our scheme is based on a generalization of Erez and Zamir mod-/spl Lambda/ scheme to the MIMO case. This result settles the open problem posed by Zheng and Tse on the construction of explicit coding and decoding schemes that achieve the optimal diversity-vs-multiplexing tradeoff. Moreover, our results shed more light on the structure of optimal coding/decoding techniques in delay limited MIMO channels. In particular: 1) we show that MMSE-GDFE plays a fundamental role in approaching the limits of delay limited MIMO channels in the high SNR regime, unlike the AWGN channel case and 2) our random coding arguments represent a major departure from traditional space-time code designs based on the rank and/or mutual information design criteria.
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晶格时空(LAST)编码的最优性
本文介绍了一类晶格空时码(LAST)。我们证明了这些码在广义最小欧氏距离点阵译码下实现了Zheng和Tse定义的最优分集与复用权衡。我们的方案是基于对MIMO情况的Erez和Zamir mod-/spl Lambda/方案的推广。该结果解决了Zheng和Tse提出的关于构建实现最佳分集与复用权衡的显式编码和解码方案的开放性问题。此外,我们的研究结果揭示了延迟受限MIMO信道中最优编码/解码技术的结构。特别是:1)我们表明,与AWGN信道情况不同,MMSE-GDFE在接近高信噪比条件下延迟受限MIMO信道的极限方面起着基本作用;2)我们的随机编码参数代表了基于秩和/或互信息设计标准的传统空时码设计的重大偏离。
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