On active acceleration control of vibration isolation systems

Balas, 1978, Active control of flexible systems, Journal of Optimization Theory and Applications, 25, 415, 10.1007/BF00932903 Bonitz, 1996, Internal force-based impedance control for cooperating manipulators, IEEE Transactions on Robotics and Automation, 12, 78, 10.1109/70.481752 Buckner, 2001, Intelligent feedback linearization for active vehicle suspension control, ASME Journal of Dynamic Systems, Measurement, and Control, 123, 727, 10.1115/1.1408945 Fanson, 1990, Positive position feedback control for large space structures, AIAA Journal, 28, 717, 10.2514/3.10451 Fenn, R. C., Downer, J. R., Gondhalekar, V., & Johnson, B. G. (1990). An active magnetic suspension for space-based microgravity vibration isolation. Proceedings of ASME, Conference on Active Noise Vibration Control (pp. 49–56). Dallas, TX. Fialho, I. (2000). H∞ control design for the active rack isolation system. Proceedings of American Control Conference (pp. 2082–2086). Chicago, IL. Germann, L., & Gupta, A. (1993). Active isolation systems. Proceedings of SPIE, International Conference on Space Guidance, Control, and Tracking: Vol. 1949 (pp. 37–42). Orlando, FL. Goh, 1985, On the stability problem caused by finite actuator dynamics in the collocated control of large space structures, International Journal of Control, 41, 787, 10.1080/0020718508961163 Grigoriadis, K. M., Fialho, I. J., Chandra, R., & Mehendale, C. (2001). Active control of vibration isolation for microgravity experiments. Institute for Space Systems Operations. 2001 Annual Report (pp. 86–90). http://www.isso.uh.edu/publications/A2001 Grodsinsky, 2000, Survey of active vibration isolation systems for microgravity applications, Journal of Spacecraft and Rockets, 37, 586, 10.2514/2.3631 Jones, 1996, A control systems for a microgravity isolation mount, IEEE Transactions on Control Systems Technology, 4, 313, 10.1109/87.508880 Meirovitch, 1997 Ogata, 1997 Salcudean, 1995, Design and control of a force-reflecting teleoperation system with magnetically levitated master and wrist, IEEE Transactions on Robotics and Automation, 11, 844, 10.1109/70.478431 Song, 2002, Experimental robustness study of positive position feedback control for active vibration suppression, AIAA Journal of Guidance, Control and Dynamics, 25, 179, 10.2514/2.4865 Tryggvason, B., Stewart, W., & De Carufel, J. (1997). The microgravity vibration isolation mount: Development and flight test results. 48th International Astronautical Congress, Turino, Italy. Tryggvason, B., Stewart, W., De Carufel, J., & Vezina, L. (1999). Acceleration levels and operations of the microgravity vibration mount (MIM) on the shuttle and the MIR space station. 37th AIAA Aerospace Sciences Meeting and Exhibit, Nevada. Whorton, M. (2004). Glovebox integrated microgravity isolation technology (g-LIMIT). NASA Marshall Space Flight Center, Huntsville, AL. http://spaceresearch.nasa.gov/research_projects/ros/glimit.html Whorton, M. S. (2000). Microgravity vibration isolation for the international space station. NASA Document 20000034094. Marshall Space Flight Center.