Comparison of two on-orbit attitude sensor alignment methods
Abstract
Compared here are two methods of on-orbit alignment of vector attitude sensors. The first method uses the angular difference between simultaneous measurements from two or more sensors. These angles are compared to the angular differences between the respective reference positions of the sensed objects. The alignments of the sensors are adjusted to minimize the difference between the two sets of angles. In the second method, the sensor alignment is part of a state vector that includes the attitude. The alignments are adjusted along with the attitude to minimize all observation residuals. It is shown that the latter method can result in much less alignment uncertainty when gyroscopes are used for attitude propagation during the alignment estimation. The additional information for this increased accuracy comes from knowledge of relative attitude obtained from the spacecraft gyroscopes. The theoretical calculations of this difference in accuracy are presented. Also presented are numerical estimates of the alignment uncertainties of the fixed-head star trackers on the Extreme Ultraviolet Explorer spacecraft using both methods.
- Publication:
-
Flight Mechanics/Estimation Theory Symposium, 1990
- Pub Date:
- December 1990
- Bibcode:
- 1990fmet.symp....3K
- Keywords:
-
- Alignment;
- Attitude (Inclination);
- Attitude Indicators;
- Gyroscopes;
- Satellite Attitude Control;
- Star Trackers;
- State Vectors;
- Accuracy;
- Comparison;
- Estimates;
- Extreme Ultraviolet Explorer Satellite;
- Astrodynamics