On the Extended Luenberger-Type Observer for Semilinear Distributed-Parameter Systems

Author

Meurer, Tim

Author_Institution

Dept. of Autom. Control, Christian-Albrechts-Univ. Kiel, Kiel, Germany

Volume

58

Issue

7

fYear

2013

fDate

Jul-13

Firstpage

1732

Lastpage

1743

Abstract

The design of an extended Luenberger observer is considered to solve the state observation problem for semilinear distributed-parameter systems. For this, a backstepping-based technique is proposed for the design of the output injection weights by making use of the (extended) linearization of the semilinear observer error system with respect to the observer state. Stability of both the linearized and the semilinear observer error dynamics is analyzed theoretically. Moreover, an efficient sample-and-hold implementation is considered to improve the computational efficiency of the observer design. Simulation examples are provided for a bistable semilinear partial differential equation and the simplified model of a bioreactor with Monod kinetics.

Keywords

computational complexity; control system synthesis; distributed parameter systems; observers; partial differential equations; stability; Monod kinetics; backstepping-based technique; bioreactor; bistable semilinear partial differential equation; computational efficiency; extended Luenberger-type observer design; observer state; output injection weights; sample-and-hold implementation; semilinear distributed-parameter systems; semilinear observer error dynamics; semilinear observer error system linearization; state observation problem; Approximation methods; Backstepping; Equations; Kernel; Mathematical model; Observers; Stability analysis; Backstepping; Luenberger observer; bioreactor; distributed-parameter systems (DPSs); partial differential equation (PDE); semilinear; stability; state observer;

fLanguage

English

Journal_Title

Automatic Control, IEEE Transactions on

Publisher

ieee

ISSN

0018-9286

Type

jour

DOI

10.1109/TAC.2013.2243312

Filename

6422350