arXiv:2210.03712 Abstract | arXiv Analytics

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Gain-Scheduling Controller Synthesis for Networked Systems with Full Block Scalings

Christian A. Rösinger, Carsten W. Scherer

Published 2022-10-07Version 1

This work presents a framework to synthesize structured gain-scheduled controllers for structured plants that are affected by time-varying parametric scheduling blocks. Using a so-called lifting approach, we are able to handle several structured gain-scheduling problems arising from a nested inner and outer loop configuration with partial or full dependence on the scheduling block. Our resulting design conditions are formulated in terms of convex linear matrix inequalities and permit to handle multiple performance objectives.

Comments: 16 pages, 4 figures

Categories: math.OC

Keywords: full block scalings, gain-scheduling controller synthesis, networked systems, handle multiple performance objectives, convex linear matrix inequalities

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arXiv:2210.03712 [math.OC]Abstract References Reviews Resources

Gain-Scheduling Controller Synthesis for Networked Systems with Full Block Scalings

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arXiv:2210.03712 [math.OC]AbstractReferencesReviewsResources

Gain-Scheduling Controller Synthesis for Networked Systems with Full Block Scalings

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arXiv:2210.03712 [math.OC]Abstract References Reviews Resources