Coupled disturbance reconstruction by sliding mode observer approach for nonlinear system

Yiyong Sun; Jinyong Yu; Zhan Li; Yu Liu

doi:10.1007/s12555-016-0575-8

Coupled disturbance reconstruction by sliding mode observer approach for nonlinear system

Yiyong Sun, Jinyong Yu^*, Zhan Li, Yu Liu

^*Corresponding author for this work

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

8 Citations (Scopus)

Abstract

This paper concentrates on the estimation of system states and the reconstruction of disturbances in a class of nonlinear systems considering stateless situation. The disturbances are coupled with time-varying parameters. The sliding mode observer approach is utilized to solve these two issues. Firstly, a descriptor model is presented by transforming the coupled disturbances into the decoupled form. Secondly, the sliding mode observer is designed to estimate the decoupled disturbances and system states of nonlinear systems. The coupled disturbance can be reconstructed hereafter. The detailed methods of designing the observer, together with the sufficient condition to guarantee the existence of the observer are also given. Finally, a simulation and a robot manipulator experiment are provided to examine the validity of the proposed design approach.

Original language	English
Pages (from-to)	2292-2300
Number of pages	9
Journal	International Journal of Control, Automation and Systems
Volume	15
Issue number	5
DOIs	https://doi.org/10.1007/s12555-016-0575-8
Publication status	Published - 1 Oct 2017
Externally published	Yes

Keywords

Descriptor augment
disturbance reconstruction
nonlinear system
sliding mode observer

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10.1007/s12555-016-0575-8

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title = "Coupled disturbance reconstruction by sliding mode observer approach for nonlinear system",

abstract = "This paper concentrates on the estimation of system states and the reconstruction of disturbances in a class of nonlinear systems considering stateless situation. The disturbances are coupled with time-varying parameters. The sliding mode observer approach is utilized to solve these two issues. Firstly, a descriptor model is presented by transforming the coupled disturbances into the decoupled form. Secondly, the sliding mode observer is designed to estimate the decoupled disturbances and system states of nonlinear systems. The coupled disturbance can be reconstructed hereafter. The detailed methods of designing the observer, together with the sufficient condition to guarantee the existence of the observer are also given. Finally, a simulation and a robot manipulator experiment are provided to examine the validity of the proposed design approach.",

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T1 - Coupled disturbance reconstruction by sliding mode observer approach for nonlinear system

AU - Sun, Yiyong

AU - Yu, Jinyong

AU - Li, Zhan

AU - Liu, Yu

PY - 2017/10/1

Y1 - 2017/10/1

N2 - This paper concentrates on the estimation of system states and the reconstruction of disturbances in a class of nonlinear systems considering stateless situation. The disturbances are coupled with time-varying parameters. The sliding mode observer approach is utilized to solve these two issues. Firstly, a descriptor model is presented by transforming the coupled disturbances into the decoupled form. Secondly, the sliding mode observer is designed to estimate the decoupled disturbances and system states of nonlinear systems. The coupled disturbance can be reconstructed hereafter. The detailed methods of designing the observer, together with the sufficient condition to guarantee the existence of the observer are also given. Finally, a simulation and a robot manipulator experiment are provided to examine the validity of the proposed design approach.

AB - This paper concentrates on the estimation of system states and the reconstruction of disturbances in a class of nonlinear systems considering stateless situation. The disturbances are coupled with time-varying parameters. The sliding mode observer approach is utilized to solve these two issues. Firstly, a descriptor model is presented by transforming the coupled disturbances into the decoupled form. Secondly, the sliding mode observer is designed to estimate the decoupled disturbances and system states of nonlinear systems. The coupled disturbance can be reconstructed hereafter. The detailed methods of designing the observer, together with the sufficient condition to guarantee the existence of the observer are also given. Finally, a simulation and a robot manipulator experiment are provided to examine the validity of the proposed design approach.

KW - Descriptor augment

KW - disturbance reconstruction

KW - nonlinear system

KW - sliding mode observer

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JO - International Journal of Control, Automation and Systems

JF - International Journal of Control, Automation and Systems

IS - 5

ER -

Coupled disturbance reconstruction by sliding mode observer approach for nonlinear system

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Keywords

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