This work is concerned with the development of the attitude control algorithms that will be implemented on board of the Delfi-n3xt nanosatellite, which is to be launched in 2013. One of the mission objectives is to demonstrate Sun pointing and three axis stabilization. The attitude control modes and the associated algorithms are described. The control authority is shared between three body-mounted magnetorquers (MTQ) and three orthogonal reaction wheels. The attitude information is retrieved from Sun vector measurements, Earth magnetic field measurements, and gyro measurements. The design of the control is achieved as a trade between simplicity and performance. Stabilization and Sun pointing are achieved via the successive application of th...
The goal of this Master Thesis (MT) is the development and simulation of detumbling algorithms for t...
Attitude determination and control is the estimation of the current orientation of a satellite and c...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
This work is concerned with the development of the attitude control algorithms that will be implemen...
This paper presents current developments of the attitude determination algorithm for Del¦-n3Xt, TU D...
This paper presents current developments of the attitude determination algorithm for Delfi-n3Xt, TU ...
In this TFM the attitude determination and control system for the 3Cat-2 nanosatellite will be imple...
This work presents 3 candidate strategies for all-magnetic attitude control of a 3U CubeSat using a ...
ABSTRACT- New advanced control techniques for the attitude determination and control of the SUNSAT m...
To improve the pointing capabilities of nanosatellites a fast response attitude control system is re...
New advanced control techniques for attitude determination and control of small (micro) satellites a...
This paper presents the design of an attitude controller for a magnetically actuated nanosatellite. ...
Three-axis satellite attitude determination and active stabilization systems have been designed and ...
On 13 September 2012, three identical 10x10x10 cm (1U) AeroCube-4 satellites built by The Aerospace ...
The magnetic attitude control systems for TNS-series (Technology Nano Satellite) are considered. The...
The goal of this Master Thesis (MT) is the development and simulation of detumbling algorithms for t...
Attitude determination and control is the estimation of the current orientation of a satellite and c...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
This work is concerned with the development of the attitude control algorithms that will be implemen...
This paper presents current developments of the attitude determination algorithm for Del¦-n3Xt, TU D...
This paper presents current developments of the attitude determination algorithm for Delfi-n3Xt, TU ...
In this TFM the attitude determination and control system for the 3Cat-2 nanosatellite will be imple...
This work presents 3 candidate strategies for all-magnetic attitude control of a 3U CubeSat using a ...
ABSTRACT- New advanced control techniques for the attitude determination and control of the SUNSAT m...
To improve the pointing capabilities of nanosatellites a fast response attitude control system is re...
New advanced control techniques for attitude determination and control of small (micro) satellites a...
This paper presents the design of an attitude controller for a magnetically actuated nanosatellite. ...
Three-axis satellite attitude determination and active stabilization systems have been designed and ...
On 13 September 2012, three identical 10x10x10 cm (1U) AeroCube-4 satellites built by The Aerospace ...
The magnetic attitude control systems for TNS-series (Technology Nano Satellite) are considered. The...
The goal of this Master Thesis (MT) is the development and simulation of detumbling algorithms for t...
Attitude determination and control is the estimation of the current orientation of a satellite and c...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...