[1] K. J. str m and B. Wittenmark. Adaptive Control. Addison Wesley, Reading, Massachusetts, 1989, 1995.

[2] M. Jessel adn G. A. Mangiante. Active sound absorbers in an air duct. Journal of Sound and Vibration, 23( 3): 383 390, 1972.

[3] G. S. Aglietti. Active Control of Microvibrations for Equipment Loaded Spacecraft Panel. PhD thesis, ISVR, University of Southampton, UK, 1999.

[4] G. S. Aglietti, S. B. Gabriel, R. S. Langley, and E. Rogers. A modeling technique for active control design studies with application to spacecraft microvibration. The Journal of The Acoustical Society of America, 102( 4): 2158 2166, 1997.

[5] G. S. Aglietti, R. S. Langley, E. Rogers, and S. B. Gabriel. An efficient model of an equipment loaded panel for active control design studies. Journal of The Acoustical Society of America, (Accepted for publication), 2000.

[6] G. S. Aglietti, J. Stoustrup, E. Rogers, R. S. Langley, and S. B. Gabriel. LTR control of microvibration. Proc: IEEE International Conference on Control Applications, pages 624 628, 1998.

[7] D. P. Agrawal, V. K. Janakiram, and G. C. Pathak. Evaluating the performance of multicomputer configuration. IEEE Computer, 19( 5): 23 37, 1986.

[8] T. E. Alberts, L. J. Love, E. Bayo, and H. Moulin. Experiments with end-point control of a flexible link using the inverse dynamics approach and passive damping. Proceedings of American Control Conference, ( 1): 350 355, 1990.

[9] J.