Title :
MFDs of spinning satellite and attitude control using gyrotorquers
Author :
Iyer, Ashok ; Singh, S.N.
Author_Institution :
Dept. of Comput. Sci. & Electr. Eng., Nevada Univ., Las Vegas, NV, USA
fDate :
9/1/1989 12:00:00 AM
Abstract :
Questions related to the matrix fraction descriptions (MFDs) and the minimal realizations of the transfer matrix of a spinning satellite system and control system design using output feedback are considered. The control torques are generated using gyrotorquers, and the output variables are the attitude angles. Two minimal state-space representations of the system, namely, a controller-form and an observer-form realization, are obtained from a right and left MFD of the transfer matrix, respectively. Using these canonical realizations, analytical expression for the feedback matrices of the controller and the observer as functions of the system parameters are obtained. The poles of the closed-loop system are invariant with respect to the spin rate of the satellite. Simulation results are presented to show that precise attitude control is accomplished in the closed-loop system using output feedback
Keywords :
artificial satellites; attitude control; closed loop systems; feedback; gyroscopes; matrix algebra; state-space methods; torque control; attitude angles; attitude control; canonical realizations; closed-loop system; control system design; control torques; feedback matrices; gyrotorquers; matrix fraction descriptions; observer; output feedback; spin rate; spinning satellite; state-space representations; transfer matrix; Attitude control; Computer science; Control systems; Flywheels; Matrix decomposition; Output feedback; Satellites; Spinning; Torque control; Vehicles;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
