Differential spatial multiplexing from orthogonal designs

2008 IEEE 9th Workshop on Signal Processing Advances in Wireless Communications Pub Date : 2008-07-06 DOI:10.1109/SPAWC.2008.4641620

Yu Deng, A. Burr, Lingyang Song

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引用次数: 3

Abstract

We propose a differential spatial multiplexing (SM) scheme based on complex square orthogonal designs, referred to as differential orthogonal spatial multiplexing (DOSM). The receiver of DOSM does not require estimation of channel fading coefficients, channel power, signal power, or noise power to decode the data symbols and the decision is based on the two consecutively received codewords. A constellation rotation strategy is introduced to enhance the transmission rate. An upper bound of the pair-wise error probability (PEP) for DOSM in Rayleigh fading channels is derived. Based on this bound we propose design criteria for the constellation rotation angel and use them to search for the optimal rotation angle for PSK constellations. Simulation results show that the proposed DOSM outperforms the existing differential spatial multiplexing schemes in terms of error-rate performance over quasi-static and time-selective Rayleigh fading channels. Furthermore, it is estimated from the bound that DOSM is only 0.4 dB poorer than coherent SM in a two-input two-output system at high SNR. The computational complexity of DOSM is moderate among the differential SM systems.

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正交设计的差分空间复用

本文提出了一种基于复平方正交设计的差分空间复用方案，即差分正交空间复用(DOSM)。DOSM接收机解码数据符号时不需要估计信道衰落系数、信道功率、信号功率或噪声功率，根据连续接收到的两个码字进行判定。为了提高传输速率，引入了星座旋转策略。推导了瑞利衰落信道中DOSM的对向误差概率(PEP)的上界。在此基础上提出了星座旋转角度的设计准则，并利用该准则搜索PSK星座的最优旋转角度。仿真结果表明，该方法在准静态和时间选择性瑞利衰落信道上的误码率优于现有的差分空间复用方案。此外，根据边界估计，在高信噪比的双输入双输出系统中，DOSM仅比相干SM差0.4 dB。在微分SM系统中，DOSM的计算复杂度适中。

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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来源期刊

2008 IEEE 9th Workshop on Signal Processing Advances in Wireless Communications

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