Efficient non-conservative realization of dynamic scaling-based controllers via matrix pencils for uncertain nonlinear strict-feedback systems

We propose a new matrix pencil based approach for design of state-feedback and output-feedback controllers for uncertain nonlinear strict-feedback-like systems. While the dynamic controller structure is based on dynamic high-gain scaling, we cast the design procedure within a general matrix pencil s...

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Published in	Systems & control letters Vol. 169; p. 105393
Main Authors	Krishnamurthy, Prashanth, Khorrami, Farshad
Format	Journal Article
Language	English
Published	Elsevier B.V 01.11.2022
Subjects	High-gain scaling Matrix pencils Nonlinear systems Robust control Uncertain systems Robust control Uncertain systems High-gain scaling Nonlinear systems Matrix pencils
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Abstract	We propose a new matrix pencil based approach for design of state-feedback and output-feedback controllers for uncertain nonlinear strict-feedback-like systems. While the dynamic controller structure is based on dynamic high-gain scaling, we cast the design procedure within a general matrix pencil structure unlike prior results that utilized conservative algebraic bounds of terms arising in Lyapunov inequalities. The design freedoms in the controller are extracted in terms of generalized eigenvalues associated with matrix pencils formulated to capture detailed structures (locations and state dependences) of uncertain terms in the system dynamics. The approach is developed under both state-feedback (dynamic high-gain scaling based controller) and output-feedback (dual dynamic high-gain scaling based controller and observer) cases and is shown to enable efficient computation of non-conservative bounds with reduced algebraic complexity. The efficacy of the approach is demonstrated through simulation studies. •Matrix pencil approach for design of dynamic high-gain scaling based controllers.•Design procedure in terms of generalized eigenvalues of matrix pencil structures.•Applicable to state- and output-feedback control of strict-feedback-like systems.•Approach enables reduced algebraic complexity and less conservative control designs.•Efficacy of the approach demonstrated through simulations on a numerical example.
AbstractList	We propose a new matrix pencil based approach for design of state-feedback and output-feedback controllers for uncertain nonlinear strict-feedback-like systems. While the dynamic controller structure is based on dynamic high-gain scaling, we cast the design procedure within a general matrix pencil structure unlike prior results that utilized conservative algebraic bounds of terms arising in Lyapunov inequalities. The design freedoms in the controller are extracted in terms of generalized eigenvalues associated with matrix pencils formulated to capture detailed structures (locations and state dependences) of uncertain terms in the system dynamics. The approach is developed under both state-feedback (dynamic high-gain scaling based controller) and output-feedback (dual dynamic high-gain scaling based controller and observer) cases and is shown to enable efficient computation of non-conservative bounds with reduced algebraic complexity. The efficacy of the approach is demonstrated through simulation studies. •Matrix pencil approach for design of dynamic high-gain scaling based controllers.•Design procedure in terms of generalized eigenvalues of matrix pencil structures.•Applicable to state- and output-feedback control of strict-feedback-like systems.•Approach enables reduced algebraic complexity and less conservative control designs.•Efficacy of the approach demonstrated through simulations on a numerical example.
ArticleNumber	105393
Author	Khorrami, Farshad Krishnamurthy, Prashanth
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Snippet	We propose a new matrix pencil based approach for design of state-feedback and output-feedback controllers for uncertain nonlinear strict-feedback-like...
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StartPage	105393
SubjectTerms	High-gain scaling Matrix pencils Nonlinear systems Robust control Uncertain systems
Title	Efficient non-conservative realization of dynamic scaling-based controllers via matrix pencils for uncertain nonlinear strict-feedback systems
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