Rejecting disturbances by output feedback in linear hyperbolic systems

Author

Aamo, Ole Morten

Author_Institution

Dept. of Eng. Cybern., Norwegian Univ. of Sci. & Technol., Trondheim, Norway

fYear

2012

fDate

15-16 Nov. 2012

Firstpage

431

Lastpage

436

Abstract

Many interesting problems in the oil and gas industry face the challenge of responding to disturbances from afar. Typically, the disturbance occurs at the inlet of a pipeline or the bottom of an oil well, while sensing and actuation equipment is installed at the outlet, only, kilometers away from the disturbance. The present paper develops an output feedback control law for such cases, based on modelling the transport phenomenon as a 2×2 linear partial differential equation (PDE) of hyperbolic type and the disturbance as a finite-dimensional linear system affecting the left boundary of the PDE. Sensing and actuation are co-located at the right boundary of the PDE. The design provides a separation principle, allowing a disturbance attenuating full-state feedback control law to be combined with an observer.

Keywords

control system synthesis; feedback; linear systems; observers; partial differential equations; disturbance rejection; finite-dimensional linear system; full-state feedback control law; hyperbolic type PDE; linear hyperbolic systems; linear partial differential equation; observer; oil well; oil-and-gas industry; output feedback control law; pipeline inlet; separation principle; transport phenomenon; Backstepping; Boundary conditions; Equations; Kernel; Mathematical model; Observers; Sensors;

fLanguage

English

Publisher

ieee

Conference_Titel

Control Conference (AUCC), 2012 2nd Australian

Conference_Location

Sydney, NSW

Print_ISBN

978-1-922107-63-3

Type

conf

Filename

6613234