An extended unknown input observer for nonlinear discrete-time systems

Author

Witczak, M. ; Korbicz, J.

Author_Institution

Inst. of Control & Comput. Eng., Tech. Univ. of Zielona Gora, Zielona Góra, Poland

fYear

2001

fDate

4-7 Sept. 2001

Firstpage

1249

Lastpage

1254

Abstract

This paper is focused on the problem of designing nonlinear observers for fault diagnosis tasks. The main objective is to show how to employ a modified version of the well-known unknown input observer, which can be applied to linear stochastic systems, to form a nonlinear deterministic observer. Moreover, it is shown that the convergence of the proposed observer is ensured under certain conditions. In particular an unknown diagonal matrix is introduced to take the linearization errors into account, and then the Lyapunov method is employed to obtain convergence conditions. Moreover, a simple technique to increasing the convergence rate is presented as well. The final part of this paper shows an example, concerning state estimation of an induction motor, which confirms the effectiveness of the approach.

Keywords

Lyapunov methods; discrete time systems; fault diagnosis; induction motors; linear systems; linearisation techniques; matrix algebra; nonlinear control systems; observers; stochastic systems; Lyapunov method; convergence conditions; extended unknown input observer; fault diagnosis tasks; induction motor state estimation; linear stochastic systems; linearization errors; nonlinear deterministic observer; nonlinear discrete-time systems; unknown diagonal matrix; Convergence; Covariance matrices; Europe; Nonlinear systems; Observers; Robustness; Fault detection and diagnosis in nonlinear systems; nonlinear observers;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (ECC), 2001 European

Conference_Location

Porto

Print_ISBN

978-3-9524173-6-2

Type

conf

Filename

7076088