Nanosatellites, although originally developed for educational purposes, are increasingly being used for commercial sense. Continuous increase in the application and use means that they require continuous improvement of performance to cope with new challenges. An important issue is the control of the position of the satellite sufficiently accurate and fast to enable it to efficiently carry out its mission. This paper includes a project consisting of a modelled test system and a presented method of control with simulation. Then, the obtained results and resulting conclusions are discussed
The main objective of this thesis is the design and additive manufacture of various assemblies of Re...
To date nanosatellites have primarily relied on magnetic stabilization which is sufficient to meet t...
Nano-satellites are classified as satellites weighing less than 20kg. This dissertation presents ...
Attitude control of a satellite is required for the pointing of communications antennas and other in...
CubeSats are making space exploration more accessible are are being launched in greater numbers than...
In the last decades, access to space has become more affordable thanks to the introduction of CubeSa...
This paper describes the design, testing & performance characterization of a Reaction Wheel-based at...
We present a satellite attitude control system design using low-cost hardware and software for a 1U ...
The problem of developing a nanosatellite attitude control system using three reaction wheels mounte...
A generic model of a nanosatellite attitude control and stabilization system was developed on the ba...
Satellite Attitude Determination and Control System (ADCS) uses an active actuator with a Reaction w...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
The purpose of this research project is to build an educational spacecraft platform to enable anyone...
A miniaturized attitude control system suitable for nanosatellites, developed using only commercial ...
Since the development of the CubeSat standard, the number of nanosatellites developed by universitie...
The main objective of this thesis is the design and additive manufacture of various assemblies of Re...
To date nanosatellites have primarily relied on magnetic stabilization which is sufficient to meet t...
Nano-satellites are classified as satellites weighing less than 20kg. This dissertation presents ...
Attitude control of a satellite is required for the pointing of communications antennas and other in...
CubeSats are making space exploration more accessible are are being launched in greater numbers than...
In the last decades, access to space has become more affordable thanks to the introduction of CubeSa...
This paper describes the design, testing & performance characterization of a Reaction Wheel-based at...
We present a satellite attitude control system design using low-cost hardware and software for a 1U ...
The problem of developing a nanosatellite attitude control system using three reaction wheels mounte...
A generic model of a nanosatellite attitude control and stabilization system was developed on the ba...
Satellite Attitude Determination and Control System (ADCS) uses an active actuator with a Reaction w...
International audienceThe paper deals with the attitude active control of a Low Earth Orbit nanosate...
The purpose of this research project is to build an educational spacecraft platform to enable anyone...
A miniaturized attitude control system suitable for nanosatellites, developed using only commercial ...
Since the development of the CubeSat standard, the number of nanosatellites developed by universitie...
The main objective of this thesis is the design and additive manufacture of various assemblies of Re...
To date nanosatellites have primarily relied on magnetic stabilization which is sufficient to meet t...
Nano-satellites are classified as satellites weighing less than 20kg. This dissertation presents ...