Active Control of Highly Autocorrelated Machinery Noise in Multivariate Nonminimum Phase Systems

Michał Meller; Adam Lasota

doi:10.1007/s00034-022-02167-4

Active Control of Highly Autocorrelated Machinery Noise in Multivariate Nonminimum Phase Systems

Abstract

In this paper, a novel multivariate active noise control scheme, designed to attenuate disturbances with high autocorrelation characteristics and preserve background signals, is proposed. The algorithm belongs to the class of feedback controllers and, unlike the popular feedforward FX-LMS approach, does not require availability of a reference signal. The proposed approach draws its inspiration from the iterative learning control and repetitive mode control methods, and employs a modified inverse model learning law. The classical inverse model learning law is well known to offer fast convergence and high steady-state performance, provided that the secondary path is minimum phase and well known. The proposed modified inverse model learning law employs a spectral factorization trick, which allows one to use the method with nonminimum phase plants of arbitrary order. Moreover, our scheme includes a controller bandwidth limiting mechanism that can be used to tune the disturbance rejection bandwidth and to improve the closed-loop robustness to errors in the model of the secondary path. The algorithm’s behavior and performance are verified with computer simulations that demonstrate suppression of electrical transformer noise and include realistic models of the secondary path. The results show high-level selective attenuation and fast convergence.

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Articles

Type:

artykuły w czasopismach

Published in:

CIRCUITS SYSTEMS AND SIGNAL PROCESSING no. 42, pages 1501 - 1521,
ISSN: 0278-081X

Language:

English

Publication year:

2023

Bibliographic description:

Meller M., Lasota A.: Active Control of Highly Autocorrelated Machinery Noise in Multivariate Nonminimum Phase Systems// CIRCUITS SYSTEMS AND SIGNAL PROCESSING -Vol. 42,iss. 3 (2023), s.1501-1521

DOI: