A Robust Nonlinear Model Reference Adaptive Control for Disturbed Linear Systems: An LMI Approach

Roberto Franco; Hector Rios; Alejandra Ferreira De Loza; Denis Efimov

doi:10.1109/TAC.2021.3069719

A Robust Nonlinear Model Reference Adaptive Control for Disturbed Linear Systems: An LMI Approach

Roberto Franco, Hector Rios, Alejandra Ferreira De Loza, Denis Efimov

Centro de Investigación y Desarrollo de Tecnología Digital (CITEDI)

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

13 Scopus citations

Abstract

In this article, a robust nonlinear model reference adaptive control (MRAC) is proposed for disturbed linear systems, i.e., linear systems with parameter uncertainties, and external time-dependent perturbations or nonlinear unmodeled dynamics matched with the control input. The proposed nonlinear control law is composed of two nonlinear adaptive gains. Such adaptive gains allow the control to counteract the effects of some perturbations and nonlinear unmodeled dynamics ensuring asymptotic convergence of the tracking error to zero, and the boundedness of the adaptive gains. The nonlinear controller synthesis is given by a constructive method based on the solution of linear matrix inequalities. Besides, the simulation results show that, due to the nonlinearities, the rate of convergence of the proposed algorithm is faster than that provided by a classic MRAC.

Original language	English
Pages (from-to)	1937-1943
Number of pages	7
Journal	IEEE Transactions on Automatic Control
Volume	67
Issue number	4
DOIs	https://doi.org/10.1109/TAC.2021.3069719
State	Published - 1 Apr 2022

Keywords

Model reference adaptive control (MRAC)
nonlinear control
robust control
uncertain linear systems

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10.1109/TAC.2021.3069719

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title = "A Robust Nonlinear Model Reference Adaptive Control for Disturbed Linear Systems: An LMI Approach",

abstract = "In this article, a robust nonlinear model reference adaptive control (MRAC) is proposed for disturbed linear systems, i.e., linear systems with parameter uncertainties, and external time-dependent perturbations or nonlinear unmodeled dynamics matched with the control input. The proposed nonlinear control law is composed of two nonlinear adaptive gains. Such adaptive gains allow the control to counteract the effects of some perturbations and nonlinear unmodeled dynamics ensuring asymptotic convergence of the tracking error to zero, and the boundedness of the adaptive gains. The nonlinear controller synthesis is given by a constructive method based on the solution of linear matrix inequalities. Besides, the simulation results show that, due to the nonlinearities, the rate of convergence of the proposed algorithm is faster than that provided by a classic MRAC.",

keywords = "Model reference adaptive control (MRAC), nonlinear control, robust control, uncertain linear systems",

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AU - Franco, Roberto

AU - Rios, Hector

AU - De Loza, Alejandra Ferreira

AU - Efimov, Denis

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N2 - In this article, a robust nonlinear model reference adaptive control (MRAC) is proposed for disturbed linear systems, i.e., linear systems with parameter uncertainties, and external time-dependent perturbations or nonlinear unmodeled dynamics matched with the control input. The proposed nonlinear control law is composed of two nonlinear adaptive gains. Such adaptive gains allow the control to counteract the effects of some perturbations and nonlinear unmodeled dynamics ensuring asymptotic convergence of the tracking error to zero, and the boundedness of the adaptive gains. The nonlinear controller synthesis is given by a constructive method based on the solution of linear matrix inequalities. Besides, the simulation results show that, due to the nonlinearities, the rate of convergence of the proposed algorithm is faster than that provided by a classic MRAC.

AB - In this article, a robust nonlinear model reference adaptive control (MRAC) is proposed for disturbed linear systems, i.e., linear systems with parameter uncertainties, and external time-dependent perturbations or nonlinear unmodeled dynamics matched with the control input. The proposed nonlinear control law is composed of two nonlinear adaptive gains. Such adaptive gains allow the control to counteract the effects of some perturbations and nonlinear unmodeled dynamics ensuring asymptotic convergence of the tracking error to zero, and the boundedness of the adaptive gains. The nonlinear controller synthesis is given by a constructive method based on the solution of linear matrix inequalities. Besides, the simulation results show that, due to the nonlinearities, the rate of convergence of the proposed algorithm is faster than that provided by a classic MRAC.

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JO - IEEE Transactions on Automatic Control

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A Robust Nonlinear Model Reference Adaptive Control for Disturbed Linear Systems: An LMI Approach

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