Recursive myriad-mean filters: Adaptive algorithms and applications

Recursive myriad-mean filters: Adaptive algorithms and applications

In this paper, a new class of recursive hybrid filtering structures is proposed for impulsive noise removal; the so-called recursive myriad-mean (RMyM) filters. More precisely, the output of the RMyM filter can be thought of as the sum of two independent weighted M-filters: the nonlinear weighted my...

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Bibliographic Details
Published in:Signal processing Vol. 139; pp. 12 - 24
Main Authors: Ramirez, Juan Marcos, Paredes, Jose Luis
Format: Journal Article
Language:English
Published: Elsevier B.V 01-10-2017
Subjects:
Adaptive algorithm
Decision feedback equalizer
Equation error formulation
Hybrid nonlinear filters
Recursive filters
Hybrid nonlinear filters
Adaptive algorithm
Equation error formulation
Recursive filters
Decision feedback equalizer
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Summary:In this paper, a new class of recursive hybrid filtering structures is proposed for impulsive noise removal; the so-called recursive myriad-mean (RMyM) filters. More precisely, the output of the RMyM filter can be thought of as the sum of two independent weighted M-filters: the nonlinear weighted myriad acting on a subset of input samples and the linear weighted mean acting on a subset of filter’s previous outputs. The uncoupled structure of the proposed filters takes into account the benefits of both weighted M-estimators: the robustness against impulsive noise of the myriad operator and the desired spectral response induced by the linear feedback. Least mean absolute (LMA) based adaptive algorithms are developed for designing these filtering structures under the equation error formulation framework. The results of extensive simulations are shown to evaluate both the behavior of the adaptive algorithms as well as the performance of the proposed recursive filters against impulsive noise. Additionally, taking into account the uncoupled structure of the proposed recursive filters, a decision feedback equalizer (DFE) based on the RMyM filter is proposed, where its performance is compared to those yielded by various conventional DFE structures, under different conditions of impulsive noise.
ISSN:0165-1684
1872-7557
DOI:10.1016/j.sigpro.2017.03.031