NASA/TM-1998-206953, Whorton, M.S. and Eldridge, J.T. and Ferebee, R.C. and Lassiter, J.O. and Redmon, Jr., J.W., Damping Mechanisms for Microgravity Vibration Isolation (MSFC Center Director's Discretionary Fund Final Report, Project No. 94-07), Structures and Dynamics Laboratory, Science and Engineering Directorate, NASA Marshall Space Flight Center, AL 35812, January 1998, pp. 20, Format(s): PDF 221k |
As a research facility for microgravity science, the International Space Station (ISS) will be used for numerous investigations such as protein crystal growth, combustion, and fluid mechanics experiments which require a quiescent acceleration environment across a broad spectrum of frequencies. These experiments are most sensitive to low-frequency accelerations and can tolerate much higher accelerations at higher frequency. However, the anticipated acceleration environment on ISS significantly exceeds the required acceleration level. The ubiquity and difficulty in characterization of the disturbance sources precludes source isolation, requiring vibration isolation to attenuate the anticipated disturbances to an acceptable level. This memorandum reports the results of research in active control methods for microgravity vibration isolation.
| Keywords: | microgravity vibration isolation, robust control |
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| Subjects: | Astronautics: Spacecraft Design, Testing And Performance |
| ID Code: | 423 |
| Deposited On: | 16 July 2002 |