Adaptive control and stabilization of elastic spacecraft

Author

Singh, Sahjendra N. ; de Araujo, Aldayr D.

Author_Institution

Dept. of Electr. & Comput. Eng., Nevada Univ., Las Vegas, NV, USA

Volume

35

Issue

1

fYear

1999

fDate

1/1/1999 12:00:00 AM

Firstpage

115

Lastpage

122

Abstract

This work treats the question of large angle rotational maneuver and stabilization of an elastic spacecraft (spacecraft-beam-tip body configuration). It is assumed that the parameters of the system are completely unknown. An adaptive control law is derived for the rotational maneuver of the spacecraft. Using the adaptive controller, asymptotically decoupled control of the pitch angle of the space vehicle is accomplished, however this maneuver causes elastic deformation of the beam connecting the orbiter and tip body. For the stabilization of the zero dynamics (flexible dynamics), a stabilizer is designed using elastic mode velocity feedback. In the closed-loop system including the adaptive controller and the stabilizer, reference pitch angle trajectory tracking and vibration suppression are accomplished. Simulation results are presented to show the maneuver capability of the control system

Keywords

adaptive control; aerospace control; attitude control; stability; vibration control; adaptive control law; adaptive controlle; beam connecting; closed-loop system; decoupled control; elastic deformation; elastic mode velocity feedback; elastic spacecraft; maneuver capability; reference pitch angle trajectory tracking; rotational maneuver; simulation results; spacecraft-beam-tip body configuration; stabilization; vibration suppression; zero dynamics; Adaptive control; Adaptive systems; Control systems; Feedback; Joining processes; Programmable control; Space vehicles; Trajectory; Vehicle dynamics; Vibration control;

fLanguage

English

Journal_Title

Aerospace and Electronic Systems, IEEE Transactions on

Publisher

ieee

ISSN

0018-9251

Type

jour

DOI

10.1109/7.745685

Filename

745685