Performance enhancement through joint detection of cochannel signals using diversity arrays

VTC '98. 48th IEEE Vehicular Technology Conference. Pathway to Global Wireless Revolution (Cat. No.98CH36151) Pub Date : 1998-05-18 DOI:10.1109/VETEC.1998.686398

S. Grant, J. Cavers

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引用次数: 167

Abstract

Joint detection based on exploiting differences among the channels employed by several users allows a receiver to distinguish cochannel signals without reliance on spectrum spreading. This paper makes a number of new contributions to the topic: it provides an analytical expression for the union bound on average symbol error rate for an arbitrary number of users and diversity antennas in a fading environment, for both perfect and imperfect CSI, and it compares the performance of joint detection with diversity antennas against classical MMSE combining. The performance is remarkable. With accurate CSI, several users can experience good performance with only a single antenna; moreover, for perfect CSI, only a 2 dB penalty is incurred for each additional user. With several antennas, many more users than the number of antennas may be supported with a slow degradation in performance for each additional user. Furthermore, high accuracy is not required from the channel estimation process. In all cases, the performance of joint detection exceeds that of MMSE combining by orders of magnitude.

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通过使用分集阵列联合检测共信道信号来增强性能

基于利用多个用户使用的信道之间的差异的联合检测允许接收器在不依赖频谱扩展的情况下区分同信道信号。本文对该课题做出了一些新的贡献:给出了衰落环境下任意数量用户和分集天线的平均符号误码率的联合界解析表达式，以及完美和不完美CSI，并比较了分集天线联合检测与经典MMSE组合的性能。演出非常出色。有了准确的CSI，多个用户只需一个天线就能体验到良好的性能;此外，对于完美的CSI，每增加一个用户只会产生2db的损失。使用多个天线时，可能支持的用户数量比天线数量多得多，并且每增加一个用户，性能就会缓慢下降。此外，信道估计过程不需要很高的精度。在所有情况下，联合检测的性能都超过了MMSE组合的数量级。

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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VTC '98. 48th IEEE Vehicular Technology Conference. Pathway to Global Wireless Revolution (Cat. No.98CH36151)

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