True covariance simulation of the EUVE update filter
Abstract
A covariance analysis of the performance and sensitivity of the attitude determination Extended Kalman Filter (EKF) used by the On Board Computer (OBC) of the Extreme Ultra Violet Explorer (EUVE) spacecraft is presented. The linearized dynamics and measurement equations of the error states are derived which constitute the truth model describing the real behavior of the systems involved. The design model used by the OBC EKF is then obtained by reducing the order of the truth model. The covariance matrix of the EKF which uses the reduced order model is not the correct covariance of the EKF estimation error. A true covariance analysis has to be carried out in order to evaluate the correct accuracy of the OBC generated estimates. The results of such analysis are presented which indicate both the performance and the sensitivity of the OBC EKF.
- Publication:
-
Flight Mechanics/Estimation Theory Symposium, 1989
- Pub Date:
- October 1989
- Bibcode:
- 1989fmet.symp..223B
- Keywords:
-
- Airborne/Spaceborne Computers;
- Covariance;
- Drift (Instrumentation);
- Extreme Ultraviolet Explorer Satellite;
- Gyroscopic Stability;
- Kalman Filters;
- Satellite Attitude Control;
- Simulation;
- Algorithms;
- Error Analysis;
- Estimates;
- Mathematical Models;
- Matrices (Mathematics);
- Robustness (Mathematics);
- Sensitivity;
- Star Trackers;
- Astrodynamics