The NASA Langley Research Center has performed analysis, simulations, and ground tests to identify the more promising technologies for minimizing spacecraft pointing jitter. These studies have shown that the use of smart materials to reduce spacecraft jitter is an excellent match between a maturing technology and an operational need. This paper describes the use of embedding piezoelectric actuators for vibration control and payload isolation. In addition, recent advances in modeling, simulation, and testing of spacecraft pointing jitter are discussed.
Spacecraft Jitter Attenuation Using Embedded Piezoelectric Actuators
1995
13 pages
Report
No indication
English
Unmanned Spacecraft , Spacecraft Trajectories & Flight Mechanics , Actuators , Dynamic response , Finite element method , Piezoelectricity , Remote sensing , Satellite instruments , Vibration damping , Vibration isolators , Acceleration protection , Active control , Computerized simulation , Earth observing system (Eos) , Embedding , Frequency response , Ground tests , Payloads , Smart structures , Vibration tests
Spacecraft Jitter Attenuation Using Embedded Piezoelectric Actuators
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