Add to ORKGThis paper presents the work in progress for the development, and testing of a third generation Star Tracker system. FAST (Fully Autonomous Star Tracker) is a sensor capable of real-time autonomous attitude measurements. The full autonomy is guaranteed by enhanced accuracy and sensitivity, and by capability of self-selection among different operating modes
Attitude control is an essential subsystem of most spacecraft buses, therefore attitude determinatio...
textThis research outlines a low-cost, low-power, arc-minute accurate star tracker that is designed ...
An artificial neural network based autonomous star tracker prototype for precise spacecraft attitude...
This paper presents the work in progress for the development, and testing of a third generation Star...
A star tracker is an optical sensor that measures the relative position of stars using photocells or...
Developing an autonomous and reliable attitude determination system is one of the most crucial requi...
This paper deals with the activities carried out at the Department of Aerospace Engineering of the U...
This paper deals with the activities carried out at the Department of Aerospace Engineering of the U...
German Aerospace Center (DLR) is designing and developing a novel star tracker to be used as the pri...
The attitude determination and control system determines and controls the orientation of the spacecr...
An APS (Active Pixel Sensor) based autonomous star tracker (AAST) has been proposed for small satell...
The demand for highly accurate attitude determination sensors has increased in the last few decades....
Attitude and position determination systems in satellites are absolutely necessary to keep the desir...
This paper presents an innovative approach to reliably achieve initial altitude acquisition with an ...
AeroAstro’s Fast Angular Rate Miniature Star Tracker (FAR-MST) is an optical-based system that uses ...
Attitude control is an essential subsystem of most spacecraft buses, therefore attitude determinatio...
textThis research outlines a low-cost, low-power, arc-minute accurate star tracker that is designed ...
An artificial neural network based autonomous star tracker prototype for precise spacecraft attitude...
This paper presents the work in progress for the development, and testing of a third generation Star...
A star tracker is an optical sensor that measures the relative position of stars using photocells or...
Developing an autonomous and reliable attitude determination system is one of the most crucial requi...
This paper deals with the activities carried out at the Department of Aerospace Engineering of the U...
This paper deals with the activities carried out at the Department of Aerospace Engineering of the U...
German Aerospace Center (DLR) is designing and developing a novel star tracker to be used as the pri...
The attitude determination and control system determines and controls the orientation of the spacecr...
An APS (Active Pixel Sensor) based autonomous star tracker (AAST) has been proposed for small satell...
The demand for highly accurate attitude determination sensors has increased in the last few decades....
Attitude and position determination systems in satellites are absolutely necessary to keep the desir...
This paper presents an innovative approach to reliably achieve initial altitude acquisition with an ...
AeroAstro’s Fast Angular Rate Miniature Star Tracker (FAR-MST) is an optical-based system that uses ...
Attitude control is an essential subsystem of most spacecraft buses, therefore attitude determinatio...
textThis research outlines a low-cost, low-power, arc-minute accurate star tracker that is designed ...
An artificial neural network based autonomous star tracker prototype for precise spacecraft attitude...