Nonlinear stabilization via control lyapunov measure

Umesh Vaidya; Prashant G. Mehta; Uday V. Shanbhag

doi:10.1109/TAC.2010.2042226

Nonlinear stabilization via control lyapunov measure

Umesh Vaidya, Prashant G. Mehta, Uday V. Shanbhag

Marcus Department of Industrial and Manufacturing Engineering

Research output: Contribution to journal › Article › peer-review

55 Scopus citations

Abstract

This paper is concerned with computational methods for Lyapunov-based stabilization of an attractor set of a nonlinear dynamical system. Based upon a stochastic representation of deterministic dynamics, a Lyapunov measure is used for these purposes. The paper poses and solves the co-design problem of jointly obtaining a control Lyapunov measure and a state feedback controller. The computational framework employs set-oriented numerical techniques. Using these techniques, the resulting co-design problem is shown to lead to a finite number of linear inequalities. These inequalities determine the feasible set of the solutions to the co-design problem. A particular solution can be efficiently obtained using methods of linear programming.

Original language	English (US)
Article number	5406095
Pages (from-to)	1314-1328
Number of pages	15
Journal	IEEE Transactions on Automatic Control
Volume	55
Issue number	6
DOIs	https://doi.org/10.1109/TAC.2010.2042226
State	Published - Jun 2010

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Computer Science Applications
Electrical and Electronic Engineering

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10.1109/TAC.2010.2042226

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abstract = "This paper is concerned with computational methods for Lyapunov-based stabilization of an attractor set of a nonlinear dynamical system. Based upon a stochastic representation of deterministic dynamics, a Lyapunov measure is used for these purposes. The paper poses and solves the co-design problem of jointly obtaining a control Lyapunov measure and a state feedback controller. The computational framework employs set-oriented numerical techniques. Using these techniques, the resulting co-design problem is shown to lead to a finite number of linear inequalities. These inequalities determine the feasible set of the solutions to the co-design problem. A particular solution can be efficiently obtained using methods of linear programming.",

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note = "Funding Information: Manuscript received July 08, 2008; revised January 25, 2009, June 11, 2009, and November 11, 2009. First published February 05, 2010; current version published June 09, 2010. This work was supported by the National Science Foundation (CMMI-0807666, CMS-0556352, and CCF-0728863). Recommended by Associate Editor Z. Qu.",

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AB - This paper is concerned with computational methods for Lyapunov-based stabilization of an attractor set of a nonlinear dynamical system. Based upon a stochastic representation of deterministic dynamics, a Lyapunov measure is used for these purposes. The paper poses and solves the co-design problem of jointly obtaining a control Lyapunov measure and a state feedback controller. The computational framework employs set-oriented numerical techniques. Using these techniques, the resulting co-design problem is shown to lead to a finite number of linear inequalities. These inequalities determine the feasible set of the solutions to the co-design problem. A particular solution can be efficiently obtained using methods of linear programming.

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Nonlinear stabilization via control lyapunov measure

Abstract

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