Results are reported on the development of an autonomous, onboard, near real time spacecraft attitude estimation technique. The approach uses CCD based star sensors to digitize relative star positions. Three microcomputers are envisioned, configured in parallel, to: (1) determine star image centroids and delete spurious images; (2) identify measured stars with stars in an onboard catalog and determine discrete attitude estimates; (3) integrate gyro rate measurements and determine optimal real time attitude estimates for use in the control system and for feedback to the star identification algorithm. Algorithms for the star identification are presented. The discrete attitude estimation algorithm recovers thermally varying interlock angles be...
The attitude determination and control system determines and controls the orientation of the spacecr...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
Attitude estimation and angular velocity estimation are the most critical components of a spacecraft...
To determine attitude or direction with star constellations is perhaps the oldest method in the fiel...
Typescript (photocopy).Autonomous star sensing and pattern recognition for attitude determination pr...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
Attitude determination systems using stellar images and star catalogs are used to obtain accurate po...
Two star pattern identification methods that use a discrete attitude variation algorithm are present...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
This paper presents several methods to improve the estimation of the star positions in a star tracke...
The objective of this research is to study different novel developed techniques for spacecraft attit...
In this paper we present a method for attitude determination using star tracker sensor measurements...
Due to the character of the original source materials and the nature of batch digitization, quality ...
A stellar gyroscope is a star based attitude propagator that is capable of propagating a spacecraft’...
This paper presents two methods of star camera calibration to determine camera calibrating parameter...
The attitude determination and control system determines and controls the orientation of the spacecr...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
Attitude estimation and angular velocity estimation are the most critical components of a spacecraft...
To determine attitude or direction with star constellations is perhaps the oldest method in the fiel...
Typescript (photocopy).Autonomous star sensing and pattern recognition for attitude determination pr...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
Attitude determination systems using stellar images and star catalogs are used to obtain accurate po...
Two star pattern identification methods that use a discrete attitude variation algorithm are present...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
This paper presents several methods to improve the estimation of the star positions in a star tracke...
The objective of this research is to study different novel developed techniques for spacecraft attit...
In this paper we present a method for attitude determination using star tracker sensor measurements...
Due to the character of the original source materials and the nature of batch digitization, quality ...
A stellar gyroscope is a star based attitude propagator that is capable of propagating a spacecraft’...
This paper presents two methods of star camera calibration to determine camera calibrating parameter...
The attitude determination and control system determines and controls the orientation of the spacecr...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
Attitude estimation and angular velocity estimation are the most critical components of a spacecraft...