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The behavior of a multiple channel active control system

The behavior of a multiple channel active control system
The behavior of a multiple channel active control system

The convergence behavior of an adaptive feedforward active control system is studied. This adjusts the outputs of a number of secondary sources to minimize a cost function comprising a combination of the sum of mean-square signals from a number of error sensors (the control error) and the sum of the mean-square signals fed to the secondary sources (the control effect). A steepest descent algorithm is derived which performs this function, the behavior of which is analyzed in the frequency domain not just in terms of the convergence of the individual secondary source signals, but also in terms of the convergence of the cost function and the control effort. It is found useful to describe this convergence in terms of the eigenvalues of the relevant Hessian matrix, which determine the speed of convergence of the modes of the control system, and in terms of the primary field transformed using a singular value decomposition of the transfer matrix, which determines the initial excitation of each of the modes. This illustrates that some modes not only converge slowly but also require an excessive control effort for complete convergence. This ill-conditioned behavior can be controlled by the proper choice of the cost function minimized. Laboratory experiments using a 16-loudspeaker 32-microphone control system to control the harmonic sound in an enclosure are presented. The behavior of the practical system is accurately predicted from the theoretical analysis of the adaptive algorithm. The effect of errors in the assumed transfer matrix used by the steepest descent algorithm is also briefly discussed.

1053-587X
1041-1052
Elliott, Stephen J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Boucher, Christopher C.
d1f82cdc-0534-4471-befc-7f6796f4278a
Nelson, Philip A.
5c6f5cc9-ea52-4fe2-9edf-05d696b0c1a9
Elliott, Stephen J.
721dc55c-8c3e-4895-b9c4-82f62abd3567
Boucher, Christopher C.
d1f82cdc-0534-4471-befc-7f6796f4278a
Nelson, Philip A.
5c6f5cc9-ea52-4fe2-9edf-05d696b0c1a9

Elliott, Stephen J., Boucher, Christopher C. and Nelson, Philip A. (1992) The behavior of a multiple channel active control system. IEEE Transactions on Signal Processing, 40 (5), 1041-1052. (doi:10.1109/78.134467).

Record type: Article

Abstract

The convergence behavior of an adaptive feedforward active control system is studied. This adjusts the outputs of a number of secondary sources to minimize a cost function comprising a combination of the sum of mean-square signals from a number of error sensors (the control error) and the sum of the mean-square signals fed to the secondary sources (the control effect). A steepest descent algorithm is derived which performs this function, the behavior of which is analyzed in the frequency domain not just in terms of the convergence of the individual secondary source signals, but also in terms of the convergence of the cost function and the control effort. It is found useful to describe this convergence in terms of the eigenvalues of the relevant Hessian matrix, which determine the speed of convergence of the modes of the control system, and in terms of the primary field transformed using a singular value decomposition of the transfer matrix, which determines the initial excitation of each of the modes. This illustrates that some modes not only converge slowly but also require an excessive control effort for complete convergence. This ill-conditioned behavior can be controlled by the proper choice of the cost function minimized. Laboratory experiments using a 16-loudspeaker 32-microphone control system to control the harmonic sound in an enclosure are presented. The behavior of the practical system is accurately predicted from the theoretical analysis of the adaptive algorithm. The effect of errors in the assumed transfer matrix used by the steepest descent algorithm is also briefly discussed.

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More information

Published date: 1 May 1992
Additional Information: Copyright: Copyright 2015 Elsevier B.V., All rights reserved.

Identifiers

Local EPrints ID: 468806
URI: http://eprints.soton.ac.uk/id/eprint/468806
DOI: doi:10.1109/78.134467
ISSN: 1053-587X
PURE UUID: c702ca80-b546-4bee-9d9a-52cc11de8fea
ORCID for Philip A. Nelson: ORCID iD orcid.org/0000-0002-9563-3235

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Date deposited: 25 Aug 2022 17:22
Last modified: 17 Mar 2024 02:32

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Contributors

Author: Stephen J. Elliott
Author: Christopher C. Boucher
Author: Philip A. Nelson ORCID iD

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