The orientation of a spacecraft can be changed efficiently by transferring angular momentum between the platform and internal momentum wheels using internal torques. The speed of such maneuvers depends on the size of the internal torques and may be limited by the effects of excitation of any flexible elements of the spacecraft. The internal torques required to accomplish such maneuvers arise in various forms. Three types of torque are considered: constant torques for a simple momentum transfer, viscous torques attributable to bearing friction, and time-varying torques defined by a suitable control law. A previously developed graphic result for single-rotor gyrostats is extended to the multiple-rotor case and used to illustrate the different...
This paper describes a prototype and analytical studies of a three-degree of freedom (3-DOF) spheric...
Tracking control laws are developed for a rigid spacecraft using both thrusters and momentum wheels....
Spacecraft reorientation can require propellant even when using gyroscopes since these have momentum...
Active magnetic bearings have several potential applications in spacecraft design. Based on the gyro...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Abstract: We consider certain modes of orbital orientation of a spacecraft-gyrostat in a l...
This thesis addresses sub-optimal employment of 3 momentum wheels for large angle reorientation of r...
This paper examines the current state of gyrostabilizer vehicular technology. With no previous descr...
A gyrostat is a massive sphere (or disk) mounted such that the supporting apparatus exerts no torque...
The main property of gyroscopic devices is maintaining the axis of a spinning rotor, a mathematical ...
Gyroscope devices are primary units for navigation and control systems in aviation and space enginee...
This paper presents innovative mechanisms capable of advantageously providing attitude control for s...
Typical spacecraft propulsion systems depend upon the transfer of linear momentum through the expuls...
Vibrational stability of large flexible structurally damped spacecraft carrying internal angular mom...
Control-moment gyroscopes (CMGs) are power-efficient, internal momentum ac-tuators that produce high...
This paper describes a prototype and analytical studies of a three-degree of freedom (3-DOF) spheric...
Tracking control laws are developed for a rigid spacecraft using both thrusters and momentum wheels....
Spacecraft reorientation can require propellant even when using gyroscopes since these have momentum...
Active magnetic bearings have several potential applications in spacecraft design. Based on the gyro...
Several laws are designed for simultaneous control of the orientation of an Earth-pointing spacecraf...
Abstract: We consider certain modes of orbital orientation of a spacecraft-gyrostat in a l...
This thesis addresses sub-optimal employment of 3 momentum wheels for large angle reorientation of r...
This paper examines the current state of gyrostabilizer vehicular technology. With no previous descr...
A gyrostat is a massive sphere (or disk) mounted such that the supporting apparatus exerts no torque...
The main property of gyroscopic devices is maintaining the axis of a spinning rotor, a mathematical ...
Gyroscope devices are primary units for navigation and control systems in aviation and space enginee...
This paper presents innovative mechanisms capable of advantageously providing attitude control for s...
Typical spacecraft propulsion systems depend upon the transfer of linear momentum through the expuls...
Vibrational stability of large flexible structurally damped spacecraft carrying internal angular mom...
Control-moment gyroscopes (CMGs) are power-efficient, internal momentum ac-tuators that produce high...
This paper describes a prototype and analytical studies of a three-degree of freedom (3-DOF) spheric...
Tracking control laws are developed for a rigid spacecraft using both thrusters and momentum wheels....
Spacecraft reorientation can require propellant even when using gyroscopes since these have momentum...