Active damping of modal oscillation is critical to the success of future versions of Space Station Freedom. Vibratory motion may be induced by external disturbances such as solar and gravity gradient torques, extra vehicular and experimental activity, aerodynamic forces, the earth's magnetic field, and space shuttle docking. Linear proof mass actuators can provide control on the space station to achieve this damping effect. Two control algorithm, Linear Quadratic Gaussian control and H infinity control are applied to a model of Space Station Freedom. The results compare the robustness, stability and performance of the Space Station under the effects of each of the two control algorithms.
Active Damping of Vibrations on Space Station Freedom Using Linear, Quadratic Gaussian Control and H(Infinity) Control
1991
100 pages
Report
Keine Angabe
Englisch
Manned Spacecraft , Space shuttles , Vibration , Aerodynamic forces , Algorithms , Control , Damping , Docking , Geomagnetism , Gradients , Gravity , Magnetic fields , Motion , Oscillation , Space stations , Torque , Vehicles , Active damping , Linear quadratic Guassian control , Theses , Satellite control
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