A decision feed-back blind equalization algorithm based on a cluster formation technique

Proceedings of MILCOM '93 - IEEE Military Communications Conference Pub Date : 1993-10-11 DOI:10.1109/MILCOM.1993.408668

J. Karaoguz, R. A. Nobakht

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引用次数: 3

Abstract

This paper proposes a decision feed-back blind equalization (DFBE) algorithm to reconstruct a QPSK constellation degraded by a stationary multipath channel and additive white Gaussian noise. The equalizer structure is composed of two filters, a feed-forward filter and a feed-back filter. The inputs to the feed-forward and feed-back filters are the received signal sequence and the detected symbols, respectively. Both filters are updated by a stochastic gradient algorithm in proportion to an estimated error based on a Gaussian cluster formation technique. During equalization, the QPSK symbol constellation is modeled as Gaussian clusters centered around the transmitted symbols. Both equalizer filters are updated to minimize the variance of the Gaussian clusters, thereby reconstructing the transmitted symbols. The blind nature of the DFBE algorithm makes it very attractive for mobile communications applications where the reliable transmission of signals through rapidly changing multipath fading channels with deep spectral nulls is a challenging problem yet to be resolved.<>

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基于聚类形成技术的决策反馈盲均衡算法

本文提出了一种决策反馈盲均衡(DFBE)算法，用于重建被平稳多径信道和加性高斯白噪声退化的QPSK星座。均衡器结构由两个滤波器组成，一个前馈滤波器和一个反馈滤波器。前馈滤波器和反馈滤波器的输入分别是接收到的信号序列和检测到的符号。基于高斯聚类形成技术的随机梯度算法与估计误差成比例地更新两个滤波器。在均衡过程中，QPSK符号星座被建模为以传输符号为中心的高斯簇。两个均衡器滤波器都被更新以最小化高斯簇的方差，从而重建传输的符号。DFBE算法的盲目性使其对移动通信应用非常有吸引力，在移动通信应用中，通过具有深谱零的快速变化的多径衰落信道可靠传输信号是一个尚未解决的具有挑战性的问题。

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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Proceedings of MILCOM '93 - IEEE Military Communications Conference

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