This work describes the attitude determination and control system ( ADCS) of 3 CAT-2, a six-unit CubeSat scheduled for launch this 2016. The ADCS of 3CAT-2 aims at controlling the satellite in orbit and fulfilling the pointing requirements imposed by the mission. The attitude control system implemented in 3CAT-2 will be used to point the antennas towards the Earth to perform altimetry tests, orient the solar panels towards the Sun to maximize power input when battery levels are critical, and reduce the tumbling motion of the satellite after the deployment phase. In order to guarantee pointing requirements for remote sensing purposes, an active three-axis attitude determination and control system is considered.Peer ReviewedPostprint (publish...
The 3rd Generation 1.5U CubeSat designed at Los Alamos National Laboratory (LANL) contains a compact...
This thesis presents a design of the system for the first stage of a mission in the NanoSat Lab, the...
This project describes the development of the attitude determination and control, on board computing...
This work describes the attitude determination and control system (ADCS) of ³CAT-2, a six-unit CubeS...
This work describes the attitude determination and control system ( ADCS) of 3 CAT-2, a six-unit Cub...
In this TFM the attitude determination and control system for the 3Cat-2 nanosatellite will be imple...
The goal of this Master Thesis (MT) is the development and simulation of detumbling algorithms for t...
The AOCS of a spacecraft is the responsible for determining the attitude of the satellite and contro...
In this article the Attitude and Control system of a CubeSat is presented. The attitude estimation d...
On 13 September 2012, three identical 10x10x10 cm (1U) AeroCube-4 satellites built by The Aerospace ...
This paper provides an overview of the on-orbit operation of the Attitude Control Subsystem (ACS) fo...
One of the most limiting factors which affects pico/nano satellites capabilities is the poor accurac...
textA flexible, robust attitude determination and control (ADC) system is presented for small satell...
The attitude determination and control system (ADCS) for a satellite is responsible for multiple key...
GWSat is a project led by George Washington University in collaboration with the Costa Rica Institut...
The 3rd Generation 1.5U CubeSat designed at Los Alamos National Laboratory (LANL) contains a compact...
This thesis presents a design of the system for the first stage of a mission in the NanoSat Lab, the...
This project describes the development of the attitude determination and control, on board computing...
This work describes the attitude determination and control system (ADCS) of ³CAT-2, a six-unit CubeS...
This work describes the attitude determination and control system ( ADCS) of 3 CAT-2, a six-unit Cub...
In this TFM the attitude determination and control system for the 3Cat-2 nanosatellite will be imple...
The goal of this Master Thesis (MT) is the development and simulation of detumbling algorithms for t...
The AOCS of a spacecraft is the responsible for determining the attitude of the satellite and contro...
In this article the Attitude and Control system of a CubeSat is presented. The attitude estimation d...
On 13 September 2012, three identical 10x10x10 cm (1U) AeroCube-4 satellites built by The Aerospace ...
This paper provides an overview of the on-orbit operation of the Attitude Control Subsystem (ACS) fo...
One of the most limiting factors which affects pico/nano satellites capabilities is the poor accurac...
textA flexible, robust attitude determination and control (ADC) system is presented for small satell...
The attitude determination and control system (ADCS) for a satellite is responsible for multiple key...
GWSat is a project led by George Washington University in collaboration with the Costa Rica Institut...
The 3rd Generation 1.5U CubeSat designed at Los Alamos National Laboratory (LANL) contains a compact...
This thesis presents a design of the system for the first stage of a mission in the NanoSat Lab, the...
This project describes the development of the attitude determination and control, on board computing...