An approximate inverse system for nonminimum-phase systems and its application to disturbance observer

Xinkai Chen; Guisheng Zhai; Toshio Fukuda

doi:10.1016/j.sysconle.2003.11.011

An approximate inverse system for nonminimum-phase systems and its application to disturbance observer

Xinkai Chen, Guisheng Zhai, Toshio Fukuda

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

39 Citations (Scopus)

Abstract

This paper proposes an approximate inverse system for nonminimum-phase dynamical systems based on the least-square approximation method. The nonminimum-phase systems are approximated by minimum-phase systems. The proposed formulation is applied to the disturbance observation problems for multivariable nonminimum-phase systems with arbitrary relative degrees. The disturbances, which are assumed bounded, are the combination of the external disturbances, the nonlinearities and the model uncertainties of the system. The estimation error of the disturbances is controlled by the design parameters. Furthermore, the accuracy of the estimation also depends on the frequencies of the disturbances. Simulation results show the effectiveness of the proposed method.

Original language	English
Pages (from-to)	193-207
Number of pages	15
Journal	Systems and Control Letters
Volume	52
Issue number	3-4
DOIs	https://doi.org/10.1016/j.sysconle.2003.11.011
Publication status	Published - 2004 Jul

Keywords

Approximate inverse system
Disturbance observer
Least-square approximation
Multivariable systems
Nonminimum-phase dynamical systems

ASJC Scopus subject areas

Control and Systems Engineering
Computer Science(all)
Mechanical Engineering
Electrical and Electronic Engineering

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10.1016/j.sysconle.2003.11.011

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title = "An approximate inverse system for nonminimum-phase systems and its application to disturbance observer",

abstract = "This paper proposes an approximate inverse system for nonminimum-phase dynamical systems based on the least-square approximation method. The nonminimum-phase systems are approximated by minimum-phase systems. The proposed formulation is applied to the disturbance observation problems for multivariable nonminimum-phase systems with arbitrary relative degrees. The disturbances, which are assumed bounded, are the combination of the external disturbances, the nonlinearities and the model uncertainties of the system. The estimation error of the disturbances is controlled by the design parameters. Furthermore, the accuracy of the estimation also depends on the frequencies of the disturbances. Simulation results show the effectiveness of the proposed method.",

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T1 - An approximate inverse system for nonminimum-phase systems and its application to disturbance observer

AU - Chen, Xinkai

AU - Zhai, Guisheng

AU - Fukuda, Toshio

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Y1 - 2004/7

N2 - This paper proposes an approximate inverse system for nonminimum-phase dynamical systems based on the least-square approximation method. The nonminimum-phase systems are approximated by minimum-phase systems. The proposed formulation is applied to the disturbance observation problems for multivariable nonminimum-phase systems with arbitrary relative degrees. The disturbances, which are assumed bounded, are the combination of the external disturbances, the nonlinearities and the model uncertainties of the system. The estimation error of the disturbances is controlled by the design parameters. Furthermore, the accuracy of the estimation also depends on the frequencies of the disturbances. Simulation results show the effectiveness of the proposed method.

AB - This paper proposes an approximate inverse system for nonminimum-phase dynamical systems based on the least-square approximation method. The nonminimum-phase systems are approximated by minimum-phase systems. The proposed formulation is applied to the disturbance observation problems for multivariable nonminimum-phase systems with arbitrary relative degrees. The disturbances, which are assumed bounded, are the combination of the external disturbances, the nonlinearities and the model uncertainties of the system. The estimation error of the disturbances is controlled by the design parameters. Furthermore, the accuracy of the estimation also depends on the frequencies of the disturbances. Simulation results show the effectiveness of the proposed method.

KW - Approximate inverse system

KW - Disturbance observer

KW - Least-square approximation

KW - Multivariable systems

KW - Nonminimum-phase dynamical systems

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JO - Systems and Control Letters

JF - Systems and Control Letters

IS - 3-4

ER -

An approximate inverse system for nonminimum-phase systems and its application to disturbance observer

Abstract

Keywords

ASJC Scopus subject areas

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