Add to ORKGThe stability of a dual-spin satellite system during the momentum wheel spin-up maneuver is treated both analytically and numerically. The dual-spin system consists of: a slowly rotating or despun main-body; a momentum wheel (or rotor) which is accelerated by a torque motor to change its initial angular velocity relative to the main part to some high terminal value; and a nutation damper. A closed form solution for the case of a symmetrical satellite indicates that when the nutation damper is physically constrained for movement (i.e. by use of a mechanical clamp) the magnitude of the vector sum of the transverse angular velocity components remains bounded during the wheel spin-up under the influence of a constant motor torque. The analysis ...
The mission requirements for some satellites require that they spin continuously and at the same tim...
We consider spinup dynamics of axial dual-spin spacecraft composed of two rigid bodies: an asymmetri...
The feasibility of utilizing the environmental forces for three-axis librational damping and attitud...
It is assumed that since the solar paddle attachments to the hub of the spacecraft are not rigidly l...
A dual-spin spacecraft having a momentum wheel spinning relative to a platform to provide bias momen...
The motion of the angular momentum vector in body coordinates for torque free, asymmetric dual spin ...
Since the attitude instability experience by Explorer 1, many papers have been written on the effect...
Precession maneuver control laws for single-spin spacecraft are investigated so that nutation is con...
This study examines the spinup dynamics of dual-spin spacecraft having an imbalanced rotor. Of parti...
Nadir pointing satellites can experience large atmospheric torques during low perigee parking orbits...
AbstractThis research investigates the applications of a gyroscopic-like motion embedded in the atti...
Stability of SAS-A dual spin spacecraft with energy dissipation on momentum whee
Stable rotating semi-rigid bodies were demonstrated analytically, and verified in flights such as Ex...
A theoretical study was made of the angular motions of spinning bodies in space. The analysis was ba...
Attitude stability of an asymmetric dual-spin spacecraft incorporating a flexible joint under the in...
The mission requirements for some satellites require that they spin continuously and at the same tim...
We consider spinup dynamics of axial dual-spin spacecraft composed of two rigid bodies: an asymmetri...
The feasibility of utilizing the environmental forces for three-axis librational damping and attitud...
It is assumed that since the solar paddle attachments to the hub of the spacecraft are not rigidly l...
A dual-spin spacecraft having a momentum wheel spinning relative to a platform to provide bias momen...
The motion of the angular momentum vector in body coordinates for torque free, asymmetric dual spin ...
Since the attitude instability experience by Explorer 1, many papers have been written on the effect...
Precession maneuver control laws for single-spin spacecraft are investigated so that nutation is con...
This study examines the spinup dynamics of dual-spin spacecraft having an imbalanced rotor. Of parti...
Nadir pointing satellites can experience large atmospheric torques during low perigee parking orbits...
AbstractThis research investigates the applications of a gyroscopic-like motion embedded in the atti...
Stability of SAS-A dual spin spacecraft with energy dissipation on momentum whee
Stable rotating semi-rigid bodies were demonstrated analytically, and verified in flights such as Ex...
A theoretical study was made of the angular motions of spinning bodies in space. The analysis was ba...
Attitude stability of an asymmetric dual-spin spacecraft incorporating a flexible joint under the in...
The mission requirements for some satellites require that they spin continuously and at the same tim...
We consider spinup dynamics of axial dual-spin spacecraft composed of two rigid bodies: an asymmetri...
The feasibility of utilizing the environmental forces for three-axis librational damping and attitud...