This paper presents several methods to improve the estimation of the star positions in a star tracker, using a Kalman Filter. The accuracy with which the star positions can be estimated greatly influences the accuracy of the star tracker attitude estimate. In this paper, a Kalman Filter with low computational complexity, that can be used to estimate the star positions based on star tracker centroiding data and gyroscope data is discussed. The performance of this Kalman Filter can be increased by adjusting its parameters using certain available information. Using information such as the power in the star signal or the shape of the signal, the noise values in the filter can be adjusted to improve the star position estimate. Furthermore, the f...
The quality of space telescope observations greatly depends on the pointing performance of the space...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
Agility describes the ability of a spacecraft to arbitrarily and rapidly reorient itself inspace. In...
This paper presents several methods to improve the estimation of the star positions in a star tracke...
The literature since Apollo contains exhaustive material on attitude filtering, usually treating the...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
Efficiency and reliability are key issues when a star sensor operates in tracking mode. In the case ...
Star trackers typically obtain attitude information about a vehicle by imaging a portion of the sky ...
In this paper we present a method for attitude determination using star tracker sensor measurements...
The attitude determination and control system determines and controls the orientation of the spacecr...
This research outlines the investigation of star tracker algorithms and Kalman Filter implementation...
EO-3 GIFTS mission (2004). The camera is designed to be autonomously self-calibrating, and capable o...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This paper presents a novel centroiding algorithm for star trackers. The proposed algorithm, which i...
The quality of space telescope observations greatly depends on the pointing performance of the space...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
Agility describes the ability of a spacecraft to arbitrarily and rapidly reorient itself inspace. In...
This paper presents several methods to improve the estimation of the star positions in a star tracke...
The literature since Apollo contains exhaustive material on attitude filtering, usually treating the...
In this paper, a star tracker attitude estimation procedure with increased robustness and efficiency...
Efficiency and reliability are key issues when a star sensor operates in tracking mode. In the case ...
Star trackers typically obtain attitude information about a vehicle by imaging a portion of the sky ...
In this paper we present a method for attitude determination using star tracker sensor measurements...
The attitude determination and control system determines and controls the orientation of the spacecr...
This research outlines the investigation of star tracker algorithms and Kalman Filter implementation...
EO-3 GIFTS mission (2004). The camera is designed to be autonomously self-calibrating, and capable o...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
Due to the character of the original source materials and the nature of batch digitization, quality ...
This paper presents a novel centroiding algorithm for star trackers. The proposed algorithm, which i...
The quality of space telescope observations greatly depends on the pointing performance of the space...
This paper presents a novel attitude estimation algorithm for spacecraft using a star tracker. The a...
Agility describes the ability of a spacecraft to arbitrarily and rapidly reorient itself inspace. In...