References

Dworski, J., 1964, Journal of Engineering for Power. Transactions ASME, Series A 86, 149-160. High speed rotor suspension formed by fully floating hydrodynamic radial and thrust bearings.
Edwards, S., Lees, A.W., and Friswell, M.I., 2000, Journal of Sound and Vibration 232(5), 963–992. Experimental identification of excitation and support parameters of a flexible rotor-bearing-foundation system from a single run-down.
Ewins, D.J., 2000, Modal Testing: Theory, Practice and Application (2nd Edition ed.), Research Studies Press Ltd, Hertfordshire, UK.
Friswell, M.I., and Mottershead, J.E., 1995, Finite Element Model Updating in Structural Dynamics, Kluwer Academic Publishers, Dodrecht.
Gunter, E.J., 1967, Journal of Engineering for Industry. Transactions ASME, Series B 89, 683-688. The influence of internal friction on the stability of high speed rotors.
Gunter, E. J., 1970, Journal of Lubrication Technology, Transactions ASME, Series F 92, 59-75. Influence of flexibly mounted rolling element bearing on rotor response, Part I- linear analysis.
Gasch, R., 1976, Journal of Sound and Vibration 47, 53-73. Vibration of large turborotors in fluid-film bearing on an elastic foundation.
Kang, Y., Chang, Y.-P., Tsai, J.-W., Mu, L.-H., and Chang, Y.-F., 2000, Journal of Sound and Vibration, 231(2), 343-374. An investigation in stiffness effects on dynamics of rotor-bearing-foundation systems.
Kirk, R.G., and Gunter, E.J., 1972, ASME Journal of Engineering for Industries 94, 221-232. The effect of support flexibility and damping on the synchronous response of a single-mass flexible rotor.
Krämer E., 1993, Dynamics of Rotors and Foundations, Springer-Verlag, New York.
Lees, A.W., Simpson, I.C., 1983, IMechE Conference on Vibrations in Rotating Machinery, Paper C6/83, London, UK, pp. 37–44. The dynamics of turbo-alternator foundations.
Lees, A.W., 1988, IMechE Conference on Vibrations in Rotating Machinery, Paper C306/88, UK, pp. 209–216. The least squares method applied to identified rotor/foundation parameters.
Lund, J.W., and Sternlicht, B., 1962, Journal of Basic Engineering, Transactions ASME, Series D 84, 491-502. Rotor-bearing dynamics with emphasis on attenuation.
Lund, J.W., 1965, Journal of Applied Mechanics, Vol. 32, Transactions ASME, Series E 87, 911-920. The stability of an elastic rotor in journal bearings with flexible, damped supports.
Pilkey, W.D., Wang, B.P., and Vannoy, D., 1976, ASME Journal of Engineering for Industries 1026-1029. Efficient optimal design of suspension systems for rotating shafts.
Sinha, J.K., Lees, A.W.,  and Friswell, M.I., 2002, Mechanical Systems and Signal Processing 16(2–3), 255–271. The identification of the unbalance and the foundation model of a flexible rotating machine from a single run down.
Smart, M.G., Friswell, M.I., and Lees, A.W., 2000, Proceedings of the Royal Society of London, Series A: Mathematical, Physical and Engineering Sciences 456, 1583–1607. Estimating turbogenerator foundation parameters—model selection and regularisation.
Smith, D.M., 1933, Proceedings of the Royal Society, Series A 142, 92. The motion of a rotor carried by a flexible shaft in flexible bearing.
Stephenson, R.W., and Rouch, K.E., 1992, Journal of Sound and Vibration 154, 467-484. Generating matrices of the foundation structure of a rotor system from test data.
Vance, J.M., Murphy, B.T., and Tripp, H.A., 1987, ASME Journal of Vibration Acoustics, Stress, Reliability in Design 109, 8-14. Critical speeds of turbomachinery: computer predictions vs. experimental measurements-Part II: effect of tilt-pad bearing and foundation dynamics.