The combined attitude and thermal control system (CATCS) combines the conventional attitude control and thermal control subsystems. Its principle is based on circulating a heat conducting fluid inside a closed duct wielding the excess onboard heat in order to produce the attitude control torques. Previously only the proportional-integral (PI) controller has been tested for CATCS. In this paper two other control options for CATCS were designed based on the H2 and H∞ control methods to improve the attitude control performance of a small satellite. The control gain matrix with the minimum cost function is obtained by solving the Riccati equation and fed back to the system in order to achieve the system’s performance. The designed controllers c...
CATSAT is a small 3-axis stabilised satellite in the STEDI program, to be launched in 1999. This pap...
This slide presentation reviews the functions of the thermal control subsystem engineers in the desi...
There has been a growing need in the Department of Defense to make space more responsive and cost ef...
Spacecraft missions need efficient and precise attitude control systems. With the aim of reducing th...
An approach that incorporates the Active Force Control (AFC) technique into a conventional Proportio...
A combined energy and attitude control system (CEACS) is a hybrid system that uses flywheels to stor...
The spacecraft missions are becoming more challenging in the recent years. Additionally, the require...
The combined energy storage and attitude control system (CEACS) combines both energy storage and att...
Two degree-of-freedom controller is designed together with its governing equations for a spacecraft ...
Combined Energy Storage and Attitude Control System (CEACS) is a new satellite system developed usi...
The thermal control is necessary for both efficient operation of the satellite and its physical inte...
A nonlinear attitude model of a satellite with thrusters, gravity torquers and a reaction wheel clus...
This paper extends the previous works that appeared in Acta Astronautica. An approach that incorpora...
In an attempt to reduce the cost of future satellites, new technologies are being pursued to develop...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
CATSAT is a small 3-axis stabilised satellite in the STEDI program, to be launched in 1999. This pap...
This slide presentation reviews the functions of the thermal control subsystem engineers in the desi...
There has been a growing need in the Department of Defense to make space more responsive and cost ef...
Spacecraft missions need efficient and precise attitude control systems. With the aim of reducing th...
An approach that incorporates the Active Force Control (AFC) technique into a conventional Proportio...
A combined energy and attitude control system (CEACS) is a hybrid system that uses flywheels to stor...
The spacecraft missions are becoming more challenging in the recent years. Additionally, the require...
The combined energy storage and attitude control system (CEACS) combines both energy storage and att...
Two degree-of-freedom controller is designed together with its governing equations for a spacecraft ...
Combined Energy Storage and Attitude Control System (CEACS) is a new satellite system developed usi...
The thermal control is necessary for both efficient operation of the satellite and its physical inte...
A nonlinear attitude model of a satellite with thrusters, gravity torquers and a reaction wheel clus...
This paper extends the previous works that appeared in Acta Astronautica. An approach that incorpora...
In an attempt to reduce the cost of future satellites, new technologies are being pursued to develop...
In this paper two nonlinear control techniques are developed and compared for the satellite attitude...
CATSAT is a small 3-axis stabilised satellite in the STEDI program, to be launched in 1999. This pap...
This slide presentation reviews the functions of the thermal control subsystem engineers in the desi...
There has been a growing need in the Department of Defense to make space more responsive and cost ef...