基于一阶摄动分析的自适应信号子空间处理

[1991] IEEE Pacific Rim Conference on Communications, Computers and Signal Processing Conference Proceedings Pub Date : 1991-05-09 DOI:10.1109/PACRIM.1991.160696

B. Champagne

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引用次数: 2

摘要

提出了一种窄带阵列数据的自适应信号子空间处理方法。它是基于一阶摄动分析的应用。在提出的方法中，在k时刻的阵列协方差矩阵的递归估计中的校正项被视为k-1时刻估计的扰动。根据这一解释，应用厄米矩阵的摄动理论，以获得一个新的递归，表示R/下标x/(k)的特征结构估计，即k时刻的真正阵列协方差矩阵，根据R/下标x/(k-1)的特征结构估计。该算法可以通过具有非线性权向量自适应方程的L线性组合器来实现，其中L为信号子空间维数。这些非线性自适应方程似乎可以替代其他算法中发现的标准正交权约束。对初步模拟结果进行了讨论。

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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Adaptive signal-subspace processing based on first-order perturbation analysis

An approach to adaptive signal-subspace processing of narrowband array data is presented. It is based on the application of first-order perturbation analysis. In the proposed approach, the correction term in the recursive estimate of the array covariance matrix at time k is viewed as a perturbation of the estimate at time k-1. Following this interpretation, the theory of perturbation of Hermitian matrices is applied in order to obtain a new recursion expressing the eigenstructure estimate of R/sub x/(k), the true array covariance matrix at time k, in terms of the eigenstructure estimate of R/sub x/(k-1). This algorithm can be realized by means of L linear combiners with nonlinear weight-vector adaptation equations, where L is the signal-subspace dimensionality. These nonlinear adaptation equations appear to be substitutes for the orthonormal weight constraints found in other algorithms. The results of preliminary simulations are discussed.<>

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[1991] IEEE Pacific Rim Conference on Communications, Computers and Signal Processing Conference Proceedings

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