Fast affine projections and the regularized modified filtered-error algorithm in multichannel active noise control
article
In this paper, real-time results are given for broadband multichannel active noise control using the regularized modified filtered-error algorithm. As compared to the standard filtered-error algorithm, the improved convergence rate and stability of the algorithm are obtained by using an inner-outer factorization of the transfer path between the actuators and the error sensors, combined with a delay compensation technique using double control filters and a regularization technique that preserves the factorization properties. The latter techniques allow the use of relatively simple and efficient adaptation schemes in which filtering of the reference signals is unnecessary. Results are given for a multichannel adaptive feedback implementation based on the internal model control principle. In feedforward systems based on this algorithm, colored reference signals may lead to reduced convergence rates. An adaptive extension based on the use of affine projections is presented, for which real-time results and simulations are given, showing the improved convergence rates of the regularized modified filtered-error algorithm for colored reference signals. © 2008 Acoustical Society of America.
Topics
Acoustic variables controlAdaptive algorithmsAdaptive filteringAlgorithmsEnvironmental engineeringError compensationFactorizationModel predictive controlSignal processingStandardsAdaptation schemesAdaptive feedbackAffine projectionsControl filtersConvergence ratesDelay-compensationError algorithmsError sensorsFeedforward systemsInner-outer factorizationInternal model controlMulti channel active noise controlReduced convergence ratesReference signalsRegularization techniquesTransfer pathsActive noise controlFeedback systemMolecular stabilityMultichannel recorderNoise measurementNoise reductionNoise standardPiezoelectricityPriority journalSignal detectionSignal processingSimulationAcousticsAlgorithmsArtifactsComputer SimulationEquipment DesignModels, TheoreticalReproducibility of ResultsSignal Processing, Computer-AssistedSoundTime Factors
TNO Identifier
240958
ISSN
0001-4966
Source
Journal of the Acoustical Society of America, 124(2), pp. 949-960.
Pages
949-960
Files
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