Adaptive tracking control for an uncertain chaotic permanent magnet synchronous motor based on fuzzy neural networks

Tat Bao Thien Nguyen; Teh Lu Liao; Jun Juh Yan

doi:10.1177/1077546313487761

Adaptive tracking control for an uncertain chaotic permanent magnet synchronous motor based on fuzzy neural networks

Tat Bao Thien Nguyen, Teh Lu Liao, Jun Juh Yan

Department of Engineering Science

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

11 Citations (Scopus)

Abstract

In this paper, an adaptive controller is developed to suppress chaos and track the desired speed in an uncertain chaotic permanent magnet synchronous motor (PMSM) drive system. The controller consists of computational and supervisory control schemes. The computational controller, based on fuzzy neural networks, is used to approximate the unknown nonlinear control signal, while the supervisory controller is employed to attenuate the approximation error effects of the neural network and ensure the system is robust. Simulation results demonstrate that the proposed controller can successfully quash chaotic oscillation in a PMSM and allow speeds to follow the desired trajectory despite the existence of uncertainties.

Original language	English
Pages (from-to)	580-590
Number of pages	11
Journal	JVC/Journal of Vibration and Control
Volume	21
Issue number	3
DOIs	https://doi.org/10.1177/1077546313487761
Publication status	Published - 2015 Feb 17

All Science Journal Classification (ASJC) codes

Materials Science(all)
Automotive Engineering
Aerospace Engineering
Mechanics of Materials
Mechanical Engineering

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10.1177/1077546313487761

Cite this

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title = "Adaptive tracking control for an uncertain chaotic permanent magnet synchronous motor based on fuzzy neural networks",

abstract = "In this paper, an adaptive controller is developed to suppress chaos and track the desired speed in an uncertain chaotic permanent magnet synchronous motor (PMSM) drive system. The controller consists of computational and supervisory control schemes. The computational controller, based on fuzzy neural networks, is used to approximate the unknown nonlinear control signal, while the supervisory controller is employed to attenuate the approximation error effects of the neural network and ensure the system is robust. Simulation results demonstrate that the proposed controller can successfully quash chaotic oscillation in a PMSM and allow speeds to follow the desired trajectory despite the existence of uncertainties.",

author = "Nguyen, {Tat Bao Thien} and Liao, {Teh Lu} and Yan, {Jun Juh}",

note = "Funding Information: The authors thank the National Science Council of Taiwan, ROC, for supporting this work under grants NSC 101-2221-E006-190-MY2 and NSC 101-2221-E1-366-006. Publisher Copyright: {\textcopyright} The Author(s) 2013 Reprints and permissions: sagepub.co.uk/journalsPermissions.nav.",

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AU - Nguyen, Tat Bao Thien

AU - Liao, Teh Lu

AU - Yan, Jun Juh

N1 - Funding Information: The authors thank the National Science Council of Taiwan, ROC, for supporting this work under grants NSC 101-2221-E006-190-MY2 and NSC 101-2221-E1-366-006. Publisher Copyright: © The Author(s) 2013 Reprints and permissions: sagepub.co.uk/journalsPermissions.nav.

PY - 2015/2/17

Y1 - 2015/2/17

N2 - In this paper, an adaptive controller is developed to suppress chaos and track the desired speed in an uncertain chaotic permanent magnet synchronous motor (PMSM) drive system. The controller consists of computational and supervisory control schemes. The computational controller, based on fuzzy neural networks, is used to approximate the unknown nonlinear control signal, while the supervisory controller is employed to attenuate the approximation error effects of the neural network and ensure the system is robust. Simulation results demonstrate that the proposed controller can successfully quash chaotic oscillation in a PMSM and allow speeds to follow the desired trajectory despite the existence of uncertainties.

AB - In this paper, an adaptive controller is developed to suppress chaos and track the desired speed in an uncertain chaotic permanent magnet synchronous motor (PMSM) drive system. The controller consists of computational and supervisory control schemes. The computational controller, based on fuzzy neural networks, is used to approximate the unknown nonlinear control signal, while the supervisory controller is employed to attenuate the approximation error effects of the neural network and ensure the system is robust. Simulation results demonstrate that the proposed controller can successfully quash chaotic oscillation in a PMSM and allow speeds to follow the desired trajectory despite the existence of uncertainties.

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Adaptive tracking control for an uncertain chaotic permanent magnet synchronous motor based on fuzzy neural networks

Abstract

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