LQG adaptive autopilot design

Author

Katebi, M R ; Byrne, J. ; Marshall, R.

Author_Institution

Ind. Syst. & Control Ltd., Glasgow, UK

fYear

1988

fDate

32170

Firstpage

42491

Lastpage

42494

Abstract

Three approaches to autopilot design for ships are proposed and discussed. Some of the difficulties in providing adequate course-keeping performance by conventional control are overcome by the development of an explicit adaptive LQG design. The new scheme has several interesting features. An output wave model is adopted so that only low frequency heading deviations are minimised. A dynamic cost function weighting is introduced to enable the added resistance due to steering to be minimised. The polynomial systems approach to linear quadratic control provides a neat solution to the optimal control problem. The proposed autopilot has been used in a simulation trial to demonstrate the improvements that can be attained in the disturbance rejection properties

Keywords

adaptive control; control system synthesis; optimal control; position control; ships; transport computer control; LQC control; LQG adaptive autopilot design; adaptive control system design; course-keeping performance; disturbance rejection; dynamic cost function weighting; low frequency heading deviations; minimisation; optimal control; output wave model; polynomial systems approach; resistance; ships; steering;

fLanguage

English

Publisher

iet

Conference_Titel

Control in the Marine Industry, IEE Colloquium on

Conference_Location

London

Type

conf

Filename

208765