An adaptive scheme with parameter identification for spacecraft attitude control

Author

Zaremba, A.T.

Author_Institution

Autom. Anal. Corp., Ann Arbor, MI, USA

Volume

1

fYear

1997

fDate

4-6 Jun 1997

Firstpage

552

Abstract

We discuss the dynamic model of a spacecraft governed by gas jet actuators or momentum wheels. Dynamic control with parameter estimation which guarantees asymptotic stability of desired trajectories is designed. We obtain an adaptive scheme which provides the convergence of the tracking errors and, in addition, for persistently exciting desired motions ensures the convergence of parameter estimates to their true values. The scheme is of composite type as it exploits both the tracking errors and prediction errors to estimate system parameters. The scheme is modified to obtain, for persistently exciting motions, instability of all steady motions with the exception of the desired trajectory. The region in the phase space is defined where exponential convergence is achieved

Keywords

adaptive control; asymptotic stability; attitude control; convergence; dynamics; parameter estimation; phase space methods; space vehicles; adaptive control; asymptotic stability; attitude control; dynamic model; exponential convergence; parameter estimation; phase space; spacecraft; tracking errors; Actuators; Adaptive control; Control systems; Convergence; Equations; Motion control; Parameter estimation; Programmable control; Space vehicles; Wheels;

fLanguage

English

Publisher

ieee

Conference_Titel

American Control Conference, 1997. Proceedings of the 1997

Conference_Location

Albuquerque, NM

ISSN

0743-1619

Print_ISBN

0-7803-3832-4

Type

conf

DOI

10.1109/ACC.1997.611860

Filename

611860