Joint Angular and Time Diversity of Multi-Antenna CDMA Systems in Wireless Fading Channels

Feng She, Hsiao-Hwa Chen, Hongyang Li
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引用次数: 20

Abstract

In this paper, a multi-antenna based receiver structure for direct sequence code division multiple access DS/CDMA system is proposed. The proposed scheme exploits the excellent time resolution of a CDMA RAKE receiver and uses an antenna array beamforming structure to resolve multipath returns in both angular and time domains. A much higher diversity gain than that based only on the time domain diversity can be achieved. This work suggests a new space-time diversity paradigm, namely angular-time diversity, which differs from traditional Alamouti-type space-time coded schemes. The impairments caused by multipath and multiuser interference are analyzed. The performance of the proposed receiver in multipath fading channel is explicitly evaluated. An expression for uncoded system bit error probability is derived. Simulation results show the performance improvement in terms of BER due to the use of multi-antenna in the receiver, and the results illustrate that the multi-antenna based receiver works effectively in resolving multipaths in both angular and time domains to achieve performance improvement due to angular and time diversity gain provided by the multi-antenna system.
无线衰落信道下多天线CDMA系统的联合角分集和时分集
提出了一种基于多天线的直接序列码分多址DS/CDMA系统接收机结构。该方案利用了CDMA RAKE接收机良好的时间分辨率,并采用天线阵列波束形成结构在角域和时间域分别解析多径回波。可以获得比仅基于时域分集高得多的分集增益。本文提出了一种新的时空分集范式,即角时间分集,它不同于传统的alamouti型时空编码方案。分析了多径干扰和多用户干扰对系统的损害。明确评价了该接收机在多径衰落信道中的性能。导出了非编码系统误码概率的表达式。仿真结果表明,由于在接收机中使用了多天线,在误码率方面的性能得到了改善,结果表明,基于多天线的接收机在角域和时间域都能有效地解决多路径问题,从而实现了多天线系统提供的角分集和时分集增益的性能改善。
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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