Title :
Attitude and angular rate estimation using the sliding mode observer with additive quaternion corrections
Author :
Köprübasi, Kerem ; Thein, May-Win L.
Author_Institution :
Dept. of Mech. Eng., Ohio State Univ., Columbus, OH
Abstract :
The sliding mode observer is used to design attitude and angular rate determination routines for the University of New Hampshire Cooperative Astrophysics Technology Satellite (CATSAT). The key design goal includes reducing the computational load of traditional nonlinear filters and providing accurate and stable estimates in the presence of modeling uncertainties, disturbances, and measurement noise. The estimation routines are particularly suited to satellites (i.e. CATSAT) not equipped with gyroscopes which provide body rate measurements. (For gyro-equipped satellites, the proposed application can also provide angular rate data in the case of gyro failure, a common phenomenon.) Quaternions are used to parameterize spacecraft attitude. In particular, additive quaternion corrections are applied to the SMO. The proposed sliding mode observer uses continuous state propagation with discrete measurement corrections to estimate attitude quaternions and angular rates. This method is implemented on the CATSAT simulation model. The observer yields satisfactory attitude and rate estimates in the presence of sensor noise, unknown bounded disturbances/uncertainties, and uncertain system parameters
Keywords :
angular velocity control; artificial satellites; attitude control; gyroscopes; nonlinear filters; observers; stability; uncertain systems; variable structure systems; CATSAT simulation model; additive quaternion correction; angular rate determination routine; angular rate estimation; attitude quaternion estimation; attitude rate determination routine; attitude rate estimation; computational load reduction; continuous state propagation; cooperative astrophysics technology satellite; discrete measurement correction; gyroscope; nonlinear filter; satellite estimation routine; sliding mode observer; spacecraft attitude parameterization; uncertain system parameter; Astrophysics; Extraterrestrial measurements; Measurement uncertainty; Noise measurement; Noise reduction; Nonlinear filters; Observers; Position measurement; Quaternions; Satellites;
Conference_Titel :
American Control Conference, 2006
Conference_Location :
Minneapolis, MN
Print_ISBN :
1-4244-0209-3
Electronic_ISBN :
1-4244-0209-3
DOI :
10.1109/ACC.2006.1657227
