Add to ORKGTechnology areas are identified in which better analytical and/or experimental methods are needed to adequately and accurately control the dynamic responses of multibody space platforms such as the space station. A generic space station solar panel is used to experimentally evaluate current control technologies. Active suppression of solar panel vibrations induced by large angle maneuvers is studied with a torque actuator at the root of the solar panel. These active suppression tests will identify the hardware requirements and adequacy of various controller designs
A preliminary Eulerian formulation of the in-plane dynamics of the proposed spacecraft control labor...
Recent NASA mission plans require spacecraft to undergo potentially significant maneuvers (or dynami...
This paper presents experimental verification of modern and classical control laws on flexible space...
Many spacecraft missions in the next decade will require both a high degree of agility and precision...
The dynamics and control of slewing maneuvers of a large flexible spacecraft, namely, NASA Spacecraf...
The dynamics and control of slewing maneuvers of NASA Spacecraft COntrol Laboratory Experiment (SCOL...
Reorientation maneuvers represent a key task for large satellites. This work considers a space vehic...
Reorientation maneuvers represent a key task for large satellites. This work considers a space vehic...
The combined problem of slew maneuver control and vibration suppression of NASA Spacecraft Control L...
Accelerometer data were collected during on-orbit structural dynamic testing of the Solar Array Flig...
Large orbiting space structures are expected to experience mechanical vibrations arising from severa...
The low-frequency flexible modes of solar arrays on spacecraft are excited by the minimum-time bang-...
The low-frequency flexible modes of solar arrays on spacecraft are excited by the minimum-time bang-...
The experimental verification of attitude control designs for flexible spacecraft is essential for ...
The rapid 2-D slewing and vibrational control of the unsymmetrical flexible SCOLE (Spacecraft Contro...
A preliminary Eulerian formulation of the in-plane dynamics of the proposed spacecraft control labor...
Recent NASA mission plans require spacecraft to undergo potentially significant maneuvers (or dynami...
This paper presents experimental verification of modern and classical control laws on flexible space...
Many spacecraft missions in the next decade will require both a high degree of agility and precision...
The dynamics and control of slewing maneuvers of a large flexible spacecraft, namely, NASA Spacecraf...
The dynamics and control of slewing maneuvers of NASA Spacecraft COntrol Laboratory Experiment (SCOL...
Reorientation maneuvers represent a key task for large satellites. This work considers a space vehic...
Reorientation maneuvers represent a key task for large satellites. This work considers a space vehic...
The combined problem of slew maneuver control and vibration suppression of NASA Spacecraft Control L...
Accelerometer data were collected during on-orbit structural dynamic testing of the Solar Array Flig...
Large orbiting space structures are expected to experience mechanical vibrations arising from severa...
The low-frequency flexible modes of solar arrays on spacecraft are excited by the minimum-time bang-...
The low-frequency flexible modes of solar arrays on spacecraft are excited by the minimum-time bang-...
The experimental verification of attitude control designs for flexible spacecraft is essential for ...
The rapid 2-D slewing and vibrational control of the unsymmetrical flexible SCOLE (Spacecraft Contro...
A preliminary Eulerian formulation of the in-plane dynamics of the proposed spacecraft control labor...
Recent NASA mission plans require spacecraft to undergo potentially significant maneuvers (or dynami...
This paper presents experimental verification of modern and classical control laws on flexible space...