Nonlinear PID predictive controller

W. H. Chen; D. J. Ballance; P. J. Gawthrop; J. J. Gribble; J. O'Reilly

doi:10.1049/ip-cta:19990744

Nonlinear PID predictive controller

W. H. Chen, D. J. Ballance, P. J. Gawthrop, J. J. Gribble, J. O'Reilly

Department of Aeronautical and Aviation Engineering

Research output: Journal article publication › Journal article › Academic research › peer-review

168 Citations (Scopus)

Abstract

A new class of nonlinear PID controllers is derived for nonlinear systems using a nonlinear generalised predictive control (NGPC) approach. First, the disturbance decoupling ability of the NGPC is discussed. For a nonlinear system where the disturbance cannot be decoupled, a nonlinear observer is designed to estimate the offset. By selecting the nonlinear gain function in the observer, it is shown that the closed-loop system under optimal generalised predictive control with the nonlinear observer is asymptotically stable. It is pointed out that this composite controller is equivalent to a nonlinear controller with integral action. As a special case, for a nonlinear system with a low relative degree, the proposed nonlinear controller reduces to a nonlinear PI or PID predictive controller, which consists of a nonlinear PI or PID controller and a prediction controller. The design method is illustrated by an example nonlinear mechanical system.

Original language	English
Pages (from-to)	603-610
Number of pages	8
Journal	IEE Proceedings: Control Theory and Applications
Volume	146
Issue number	6
DOIs	https://doi.org/10.1049/ip-cta:19990744
Publication status	Published - 1999

ASJC Scopus subject areas

Control and Systems Engineering
Instrumentation
Electrical and Electronic Engineering

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10.1049/ip-cta:19990744

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AU - Chen, W. H.

AU - Ballance, D. J.

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AU - O'Reilly, J.

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AB - A new class of nonlinear PID controllers is derived for nonlinear systems using a nonlinear generalised predictive control (NGPC) approach. First, the disturbance decoupling ability of the NGPC is discussed. For a nonlinear system where the disturbance cannot be decoupled, a nonlinear observer is designed to estimate the offset. By selecting the nonlinear gain function in the observer, it is shown that the closed-loop system under optimal generalised predictive control with the nonlinear observer is asymptotically stable. It is pointed out that this composite controller is equivalent to a nonlinear controller with integral action. As a special case, for a nonlinear system with a low relative degree, the proposed nonlinear controller reduces to a nonlinear PI or PID predictive controller, which consists of a nonlinear PI or PID controller and a prediction controller. The design method is illustrated by an example nonlinear mechanical system.

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Nonlinear PID predictive controller

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