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dc.contributor.authorBaldi, S.en
dc.contributor.authorIoannou, Petros A.en
dc.contributor.authorKosmatopoulos, E. B.en
dc.creatorBaldi, S.en
dc.creatorIoannou, Petros A.en
dc.creatorKosmatopoulos, E. B.en
dc.description.abstractA recently proposed adaptive control scheme with mixing involves the use of precalculated candidate controllers whose output is weighted on the basis of the parameter estimates generated by an online parameter estimator. It has been shown analytically and demonstrated in simulations that adaptive control with mixing exhibits good performance for the regulation case in the presence of modeling errors, disturbances, and time delays. The transient performance, however, depends on the initial conditions of the parameter estimator, and for some initial conditions, the transient oscillations may not be acceptable in certain applications. In this paper, we combine the controller mixing strategy with a multiple parameter estimation architecture plus a hysteresis switching logic selecting the parameter estimates that generate the smaller estimation errors to decide the mixing of the controllers. We show analytically that this approach, referred to as multiestimator adaptive mixing control, achieves stability and stability robustness, and we demonstrate using extensive simulations that the scheme achieves consistently better transient performance than the original adaptive mixing control. In addition, we extend the design and analysis to be applicable to the tracking case where the output is required to track a nonzero reference signal. The stability and performance of the proposed scheme in the presence of unmodeled dynamics and bounded disturbances have also been analyzed and demonstrated using a numerical example. Copyright © 2012 John Wiley & Sons, Ltd.en
dc.sourceInternational Journal of Adaptive Control and Signal Processingen
dc.subjectEstimation errorsen
dc.subjectParameter estimationen
dc.subjectSystem stabilityen
dc.subjectAdaptive control systemsen
dc.subjectNumerical exampleen
dc.subjectInitial conditionsen
dc.subjectAdaptive control schemesen
dc.subjectCandidate controllersen
dc.subjectAdaptive Controlen
dc.subjectMixing controlen
dc.subjectBounded disturbancesen
dc.subjectDesign and analysisen
dc.subjectExtensive simulationsen
dc.subjectHysteresis switchingen
dc.subjecthysteresis switching logicen
dc.subjectModeling errorsen
dc.subjectmultiple model mixing controlen
dc.subjectMultiple modelsen
dc.subjectOn-line parameter estimatoren
dc.subjectParameter estimateen
dc.subjectParameter estimatorsen
dc.subjectReference signalsen
dc.subjectrobust adaptive controlen
dc.subjectRobust-adaptive controlen
dc.subjectStability robustnessen
dc.subjectTransient oscillationsen
dc.subjectTransient performanceen
dc.subjectUnmodeled dynamicsen
dc.titleAdaptive mixing control with multiple estimatorsen
dc.description.endingpage820Σχολή Θετικών και Εφαρμοσμένων Επιστημών / Faculty of Pure and Applied SciencesΤμήμα Μαθηματικών και Στατιστικής / Department of Mathematics and Statistics
dc.description.notes<p>Cited By :7</p>en
dc.source.abbreviationInt J Adapt Control Signal Processen
dc.contributor.orcidIoannou, Petros A. [0000-0001-6981-0704]

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