This paper describes the development of a three axis attitude control system for nanosatellites and Cubesats, based on commercial electronics and capable to work autonomously for attitude stabilization or controlled from earth to perform real time orientation maneuvers. The system comprehends three micro reaction wheels and related drivers, three magnetorquers with their control circuits, three magnetometers and control electronics. The system is completely independent from the host spacecraft, with all systems included in its structure. For autonomous attitude control, an external sensor is required, providing the orientation of a reference source, such as the sun, eventually evaluated based on solar array outputs, earth or stars. The comm...
This paper describes the study and design of a 1 DoF attitude control system for a 1U CubeSat based ...
This paper describes the design, testing & performance characterization of a Reaction Wheel-based at...
students to design and build satellites. The mission requires an attitude determination and control ...
A miniaturized attitude control system suitable for nanosatellites, developed using only commercial ...
We present a satellite attitude control system design using low-cost hardware and software for a 1U ...
In recent years a very modern trend of space exploration activities – constructing, launching and op...
Nano-satellites are classified as satellites weighing less than 20kg. This dissertation presents ...
This paper presents the design and development of a nanosatellite-scale spacecraft three-axis simula...
CubeSats are making space exploration more accessible are are being launched in greater numbers than...
The development of a small spacecraft attitude determination and control subsystem is described. Th...
In an attempt to reduce the cost of future satellites, new technologies are being pursued to develop...
In this TFM the attitude determination and control system for the 3Cat-2 nanosatellite will be imple...
With the objective of being able to do an optic link between two CubeSats, a low cost attitude contr...
Guidance, navigation, and control (GNC) systems are commonly found in vehicles, whether they be spac...
In this paper, the development of a performant and accurate Attitude Determination and Control Syste...
This paper describes the study and design of a 1 DoF attitude control system for a 1U CubeSat based ...
This paper describes the design, testing & performance characterization of a Reaction Wheel-based at...
students to design and build satellites. The mission requires an attitude determination and control ...
A miniaturized attitude control system suitable for nanosatellites, developed using only commercial ...
We present a satellite attitude control system design using low-cost hardware and software for a 1U ...
In recent years a very modern trend of space exploration activities – constructing, launching and op...
Nano-satellites are classified as satellites weighing less than 20kg. This dissertation presents ...
This paper presents the design and development of a nanosatellite-scale spacecraft three-axis simula...
CubeSats are making space exploration more accessible are are being launched in greater numbers than...
The development of a small spacecraft attitude determination and control subsystem is described. Th...
In an attempt to reduce the cost of future satellites, new technologies are being pursued to develop...
In this TFM the attitude determination and control system for the 3Cat-2 nanosatellite will be imple...
With the objective of being able to do an optic link between two CubeSats, a low cost attitude contr...
Guidance, navigation, and control (GNC) systems are commonly found in vehicles, whether they be spac...
In this paper, the development of a performant and accurate Attitude Determination and Control Syste...
This paper describes the study and design of a 1 DoF attitude control system for a 1U CubeSat based ...
This paper describes the design, testing & performance characterization of a Reaction Wheel-based at...
students to design and build satellites. The mission requires an attitude determination and control ...