Multiuser detection based on random-set theory and multi-valued particle swarm optimization

2008 11th IEEE International Conference on Communication Technology Pub Date : 2008-12-16 DOI:10.1109/ICCT.2008.4716289

Zhao Zhijin, Yao Yao, Pu Junjie

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Abstract

In mobile multiple-access communications, not only the location of active users, but also their number varies with time. In typical analysis, multiuser detection theory has been developed under the assumption that the number of active users is constant and known at the receiver, and coincides with the maximum number of users entitled to access the system. This assumption is often overly pessimistic, since many users might be inactive at any given time, and detection under the assumption of the number of users larger than the real one may impair performance. The main goal of this paper is to introduce a general approach to the problem of identifying active users and estimating their parameters and data in a random-access system where users are continuously entering and leaving the system. The tool we advocate is the combination of random-set theory (RST) and multi-valued particle swarm optimization (PSO) algorithm: applying this, we derive receivers in an environment where the set of transmitters comprises an unknown number of elements. In this paper we restrict ourselves to active user identification and data detection.

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基于随机集理论和多值粒子群优化的多用户检测

在移动多址通信中，不仅活跃用户的位置会发生变化，而且活跃用户的数量也会随时间发生变化。在典型的分析中，多用户检测理论是在假设活跃用户数恒定且接收端已知的情况下发展起来的，并且与有权访问系统的最大用户数一致。这种假设通常过于悲观，因为在任何给定的时间都可能有许多用户处于非活动状态，并且在假设用户数量大于实际用户数量的情况下进行检测可能会损害性能。本文的主要目标是介绍一种通用的方法来解决随机访问系统中用户不断进出系统的活跃用户识别和估计其参数和数据的问题。我们提倡的工具是随机集理论(RST)和多值粒子群优化(PSO)算法的结合:应用此方法，我们在发射器集合包含未知数量元素的环境中导出接收器。在本文中，我们仅限于主动用户识别和数据检测。

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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2008 11th IEEE International Conference on Communication Technology

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