This paper extends the previous works that appeared in Acta Astronautica. An approach that incorporates the Active Force Control (AFC) technique into a conventional Proportional-Derivative (PD) controller is proposed for a 50 kg small satellite. Numerical treatments are performed to validate the effectiveness of AFC. The attitude control capability of the combined energy and attitude control system (CEACS) is expected to improve. The result shows an important attitude pointing enhancement for the CEACS attitude control task
A control law for an integrated power/attitude control system (IPACS) for a satellite is presented. ...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Attitude control and power storage subsystems are two of the essential utilities provided on a satel...
Combined Energy Storage and Attitude Control System (CEACS) is a new satellite system developed usi...
Two degree-of-freedom controller is designed together with its governing equations for a spacecraft ...
A combined energy and attitude control system (CEACS) is a hybrid system that uses flywheels to stor...
Small satellites for earth observation missions have received attention in the recent years for furt...
An approach that incorporates the Active Force Control (AFC) technique into a conventional Proportio...
The combined energy storage and attitude control system (CEACS) combines both energy storage and att...
Purpose: The satellite pointing accuracy plays a crucial role in ensuring a successful satellite mis...
A hybrid system combining the energy and attitude control task uses flywheels to store energy and co...
The spacecraft missions are becoming more challenging in the recent years. Additionally, the require...
One of the most important problems in satellite design is that of attitude control. An architecture...
Since the beginning of space history new innovative ideas have been driving space scientists to deve...
Spacecraft missions need efficient and precise attitude control systems. With the aim of reducing th...
A control law for an integrated power/attitude control system (IPACS) for a satellite is presented. ...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Attitude control and power storage subsystems are two of the essential utilities provided on a satel...
Combined Energy Storage and Attitude Control System (CEACS) is a new satellite system developed usi...
Two degree-of-freedom controller is designed together with its governing equations for a spacecraft ...
A combined energy and attitude control system (CEACS) is a hybrid system that uses flywheels to stor...
Small satellites for earth observation missions have received attention in the recent years for furt...
An approach that incorporates the Active Force Control (AFC) technique into a conventional Proportio...
The combined energy storage and attitude control system (CEACS) combines both energy storage and att...
Purpose: The satellite pointing accuracy plays a crucial role in ensuring a successful satellite mis...
A hybrid system combining the energy and attitude control task uses flywheels to store energy and co...
The spacecraft missions are becoming more challenging in the recent years. Additionally, the require...
One of the most important problems in satellite design is that of attitude control. An architecture...
Since the beginning of space history new innovative ideas have been driving space scientists to deve...
Spacecraft missions need efficient and precise attitude control systems. With the aim of reducing th...
A control law for an integrated power/attitude control system (IPACS) for a satellite is presented. ...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Attitude control and power storage subsystems are two of the essential utilities provided on a satel...