Design of estimator-based sliding-mode output-feedback controllers for discrete-time systems

Jinhui Zhang; Gang Feng; Yuanqing Xia

doi:10.1109/TIE.2013.2274413

Design of estimator-based sliding-mode output-feedback controllers for discrete-time systems

Jinhui Zhang, Gang Feng, Yuanqing Xia

Research output: Journal Publications and Reviews › RGC 21 - Publication in refereed journal › peer-review

51 Citations (Scopus)

Abstract

This paper considers the output-feedback sliding-mode-control (SMC) problem for a class of discrete-time systems with matched disturbances. A novel approach to the design of the sliding surface is proposed, which is based on a novel result on discrete-time singular systems. For the state variables which cannot be obtained from output variables directly, a simple estimator is proposed to estimate them. Then, the estimator-based robust SMC law is also proposed by using a new reaching law. It is further shown that the closed-loop control system is uniformly ultimately bounded. Furthermore, a memory-based sliding-mode controller with a modified estimator is also proposed. Finally, numerical examples are given to illustrate the effectiveness of the proposed design methods. © 2013 IEEE.

Original language	English
Article number	6566053
Pages (from-to)	2432-2440
Journal	IEEE Transactions on Industrial Electronics
Volume	61
Issue number	5
Online published	23 Jul 2013
DOIs	https://doi.org/10.1109/TIE.2013.2274413
Publication status	Published - May 2014

Research Keywords

Discrete quasi-sliding mode
static output feedback
uniform ultimate boundedness

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title = "Design of estimator-based sliding-mode output-feedback controllers for discrete-time systems",

abstract = "This paper considers the output-feedback sliding-mode-control (SMC) problem for a class of discrete-time systems with matched disturbances. A novel approach to the design of the sliding surface is proposed, which is based on a novel result on discrete-time singular systems. For the state variables which cannot be obtained from output variables directly, a simple estimator is proposed to estimate them. Then, the estimator-based robust SMC law is also proposed by using a new reaching law. It is further shown that the closed-loop control system is uniformly ultimately bounded. Furthermore, a memory-based sliding-mode controller with a modified estimator is also proposed. Finally, numerical examples are given to illustrate the effectiveness of the proposed design methods. {\textcopyright} 2013 IEEE.",

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AU - Feng, Gang

AU - Xia, Yuanqing

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N2 - This paper considers the output-feedback sliding-mode-control (SMC) problem for a class of discrete-time systems with matched disturbances. A novel approach to the design of the sliding surface is proposed, which is based on a novel result on discrete-time singular systems. For the state variables which cannot be obtained from output variables directly, a simple estimator is proposed to estimate them. Then, the estimator-based robust SMC law is also proposed by using a new reaching law. It is further shown that the closed-loop control system is uniformly ultimately bounded. Furthermore, a memory-based sliding-mode controller with a modified estimator is also proposed. Finally, numerical examples are given to illustrate the effectiveness of the proposed design methods. © 2013 IEEE.

AB - This paper considers the output-feedback sliding-mode-control (SMC) problem for a class of discrete-time systems with matched disturbances. A novel approach to the design of the sliding surface is proposed, which is based on a novel result on discrete-time singular systems. For the state variables which cannot be obtained from output variables directly, a simple estimator is proposed to estimate them. Then, the estimator-based robust SMC law is also proposed by using a new reaching law. It is further shown that the closed-loop control system is uniformly ultimately bounded. Furthermore, a memory-based sliding-mode controller with a modified estimator is also proposed. Finally, numerical examples are given to illustrate the effectiveness of the proposed design methods. © 2013 IEEE.

KW - Discrete quasi-sliding mode

KW - static output feedback

KW - uniform ultimate boundedness

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DO - 10.1109/TIE.2013.2274413

M3 - RGC 21 - Publication in refereed journal

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JO - IEEE Transactions on Industrial Electronics

JF - IEEE Transactions on Industrial Electronics

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ER -

Design of estimator-based sliding-mode output-feedback controllers for discrete-time systems

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