A dual-spin spacecraft having a momentum wheel spinning relative to a platform to provide bias momentum utilizes cross products of inertia (POI) existing in the platform between the spinning axis and the transverse axes to achieve nutation damping. When the platform is rotating or is displaced from a reference the cross products of inertia are also rotating or are displaced causing thereby degradation of the optimum nutation damping time constant. Two or more phase shifting networks are provided to be sequentially coupled into a control loop to shift nutation signals to effect optimum nutation damping at selected positions of the rotating or displaced platform without substantial nutation damping time constant degradation
Stability of SAS-A dual spin spacecraft with energy dissipation on momentum whee
The mission requirements for some satellites require that they spin continuously and at the same tim...
The motion of the angular momentum vector in body coordinates for torque free, asymmetric dual spin ...
Precession maneuver control laws for single-spin spacecraft are investigated so that nutation is con...
In a method of and apparatus for damping nutation of a spinning spacecraft, spin axis attitude distu...
The stability of a dual-spin satellite system during the momentum wheel spin-up maneuver is treated ...
The relations which determine the nutation effects induced in a spinning spacecraft by periodic prec...
An active nutation damping device, consisting of an angular accelerometer, a dc motor driven flywhee...
The issue of using long slender booms as pendulous nutation damping devices on spinning aircraft is ...
Nadir pointing satellites can experience large atmospheric torques during low perigee parking orbits...
It is assumed that since the solar paddle attachments to the hub of the spacecraft are not rigidly l...
AbstractThis research investigates the applications of a gyroscopic-like motion embedded in the atti...
This study examines the spinup dynamics of dual-spin spacecraft having an imbalanced rotor. Of parti...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2010.Th...
Propulsion driven nutation instability in spin stabilized spacecraft was first observed in the late ...
Stability of SAS-A dual spin spacecraft with energy dissipation on momentum whee
The mission requirements for some satellites require that they spin continuously and at the same tim...
The motion of the angular momentum vector in body coordinates for torque free, asymmetric dual spin ...
Precession maneuver control laws for single-spin spacecraft are investigated so that nutation is con...
In a method of and apparatus for damping nutation of a spinning spacecraft, spin axis attitude distu...
The stability of a dual-spin satellite system during the momentum wheel spin-up maneuver is treated ...
The relations which determine the nutation effects induced in a spinning spacecraft by periodic prec...
An active nutation damping device, consisting of an angular accelerometer, a dc motor driven flywhee...
The issue of using long slender booms as pendulous nutation damping devices on spinning aircraft is ...
Nadir pointing satellites can experience large atmospheric torques during low perigee parking orbits...
It is assumed that since the solar paddle attachments to the hub of the spacecraft are not rigidly l...
AbstractThis research investigates the applications of a gyroscopic-like motion embedded in the atti...
This study examines the spinup dynamics of dual-spin spacecraft having an imbalanced rotor. Of parti...
Thesis (S.M.)--Massachusetts Institute of Technology, Dept. of Aeronautics and Astronautics, 2010.Th...
Propulsion driven nutation instability in spin stabilized spacecraft was first observed in the late ...
Stability of SAS-A dual spin spacecraft with energy dissipation on momentum whee
The mission requirements for some satellites require that they spin continuously and at the same tim...
The motion of the angular momentum vector in body coordinates for torque free, asymmetric dual spin ...