Capacity scaling in dual-antenna-array wireless systems

2000 IEEE Wireless Communications and Networking Conference. Conference Record (Cat. No.00TH8540) Pub Date : 2000-10-29 DOI:10.1109/WCNC.2000.904594

David Tse, C. Chuah, J. Kahn

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引用次数: 1

Abstract

Wireless systems using multi-element antenna arrays simultaneously at the both transmitter and receiver promise a much higher capacity than conventional systems. Previous studies have shown that single-user systems employing n-element transmit and receive arrays can achieve a capacity proportional to n, assuming independent Rayleigh fading between pairs of antenna elements. We explore the capacity of dual-antenna-array systems via theoretical analysis and simulation experiments. We present expressions for the asymptotic growth rate of capacity with n for both independent and correlated fading cases; the latter is derived under some assumptions about the fading correlation structure. We show that the capacity growth is linear in n in both the independent and correlated cases, but the growth rate is smaller in the latter case. We compare the predictions of our asymptotic theory to the capacities of channels simulated using ray tracing, and find good agreement even for moderate n, i.e., 1/spl les/n/spl les/16. Our results address both the cases when the transmitter does and does not know the channel realization.

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双天线阵列无线系统的容量扩展

无线系统在发射器和接收器上同时使用多单元天线阵列，保证了比传统系统高得多的容量。先前的研究表明，采用n元发射和接收阵列的单用户系统可以实现与n成比例的容量，假设天线单元对之间存在独立的瑞利衰落。通过理论分析和仿真实验，探讨了双天线阵系统的容量。给出了独立衰落和相关衰落情况下容量随n的渐近增长率的表达式;后者是在对衰落相关结构的一些假设下推导出来的。我们表明，在独立和相关情况下，容量增长都是线性的，但在后一种情况下，增长率较小。我们将渐近理论的预测与使用射线追踪模拟的通道容量进行了比较，并发现即使对于中等n，即1/spl les/n/spl les/16，也有很好的一致性。我们的结果解决了发射机知道和不知道信道实现的两种情况。

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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2000 IEEE Wireless Communications and Networking Conference. Conference Record (Cat. No.00TH8540)

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