Add to ORKGPeriodic-disturbance accommodating control is investigated for asymptotic momentum management of control moment gyros used as primary actuating devices for the Space Station. The proposed controller utilizes the concepts of quaternion feedback control and periodic-disturbance accommodation to achieve oscillations about the constant torque equilibrium attitude, while minimizing the control effort required. Three-axis coupled equations of motion, written in terms of quaternions, are derived for roll/yaw controller design and stability analysis. The quaternion feedback controller designed using the linear-quadratic regulator synthesis technique is shown to be robust for a wide range of pitch angles. It is also shown that the proposed controlle...
The possibility of using quaternions to describe the position of a gyroscope with a given rotating v...
This paper presents an approach for controlling spacecraft equipped with control moment gyroscopes. ...
This paper considers control strategies for maneuvering spacecraft using Single-Gimbal Control Momen...
A new approach to CMG (control moment gyro) momentum management and attitude control of the Space St...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
The operation and accomplishment of a satellite's mission depend on its capacity to control its atti...
This paper considers the problem of rigid spacecraft. A nonlinear control law which uses the feedbac...
In the era of rapid advancements in manned and unmanned aviation and robotics, there is a need for h...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Various control design techniques are model dependent. They typically require knowledge of the inert...
In the design of attitude control, rotational motion of the spacecraft is usually considered as a ro...
This dissertation presents two major research contributions to the field of attitude dynamics and co...
This paper addresses three-axis attitude control for a Danish spacecraft, Roemer. The algorithm prop...
An innovative methodology to design a robust Control Momentum Gyro (CMG) momentum manager for the In...
The possibility of using quaternions to describe the position of a gyroscope with a given rotating v...
This paper presents an approach for controlling spacecraft equipped with control moment gyroscopes. ...
This paper considers control strategies for maneuvering spacecraft using Single-Gimbal Control Momen...
A new approach to CMG (control moment gyro) momentum management and attitude control of the Space St...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
This paper considers non-linear regulation and angular momenta management of a Space Station in the ...
The operation and accomplishment of a satellite's mission depend on its capacity to control its atti...
This paper considers the problem of rigid spacecraft. A nonlinear control law which uses the feedbac...
In the era of rapid advancements in manned and unmanned aviation and robotics, there is a need for h...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Various control design techniques are model dependent. They typically require knowledge of the inert...
In the design of attitude control, rotational motion of the spacecraft is usually considered as a ro...
This dissertation presents two major research contributions to the field of attitude dynamics and co...
This paper addresses three-axis attitude control for a Danish spacecraft, Roemer. The algorithm prop...
An innovative methodology to design a robust Control Momentum Gyro (CMG) momentum manager for the In...
The possibility of using quaternions to describe the position of a gyroscope with a given rotating v...
This paper presents an approach for controlling spacecraft equipped with control moment gyroscopes. ...
This paper considers control strategies for maneuvering spacecraft using Single-Gimbal Control Momen...