N.J. Bershad scite author profile

This paper studies the statistical behavior of an affine combination of the outputs of two least mean-square (LMS) adaptive filters that simultaneously adapt using the same white Gaussian inputs. The purpose of the combination is to obtain an LMS adaptive filter with fast convergence and small steady-state mean-square deviation (MSD). The linear combination studied is a generalization of the convex combination, in which the combination factor ( ) is restricted to the interval (0,1). The viewpoint is taken that each of the two filters produces dependent estimates of the unknown channel. Thus, there exists a sequence of optimal affine combining coefficients which minimizes the mean-square error (MSE). First, the optimal unrealizable affine combiner is studied and provides the best possible performance for this class. Then two new schemes are proposed for practical applications. The mean-square performances are analyzed and validated by Monte Carlo simulations. With proper design, the two practical schemes yield an overall MSD that is usually less than the MSDs of either filter.

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Analysis of the normalized LMS algorithm with Gaussian inputs

Bershad

1986

IEEE Trans. Acoust., Speech, Signal Process.

220

110

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A statistical analysis of the affine projection algorithm for unity step size and autoregressive inputs

Almeida

Bermudez

Bershad

et al. 2005

IEEE Trans. Circuits Syst. I

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Stochastic analysis of the filtered-X LMS algorithm in systems with nonlinear secondary paths

Costa

Bermudez

Bershad

2002

IEEE Trans. Signal Process.

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N.J. Bershad

An Affine Combination of Two LMS Adaptive Filters—Transient Mean-Square Analysis

Analysis of the normalized LMS algorithm with Gaussian inputs

A statistical analysis of the affine projection algorithm for unity step size and autoregressive inputs

Stochastic analysis of the filtered-X LMS algorithm in systems with nonlinear secondary paths

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