Publications

Original Books

    1. M. Feldman, Hilbert Transform Applications in Mechanical Vibration, Wiley, 2011,
    2. Feldman M.S., Firsov G.I., Rosenblum M.G. Methods and software of computer-aided experiment in machine dynamics (in Russian), Moscow, Nauka, 1989, 294 p., chapters 1:4, 9, 10 (parts I and III).
    3. Dobrynin S.A., Feldman M.S., Firsov G.I. Machine vibrations: computer-aided techniques for investigation (in Russian). Handbook, Series ” Machines design principles”, Moscow, Mashinostroenie, 1987, 221 p.

Original Papers Published in Professional Journals

    1. Michael Feldman, Simon Braun, Nonlinear vibrating system identification via Hilbert decomposition, Mechanical Systems and Signal Processing, Volume , Issue , 2016, pp. ,http://dx.doi.org/10.1016/j.ymssp.2016.03.015
    2. Michael Feldman, Yaron Zimmerman, Michael Gissin and Izhak Bucher, Identification and modeling of contact dynamics of precise direct drive stages, Journal of Dynamic Systems, Measurement, and Control, 2016;138(7):071001-071001-10. doi:10.1115/1.4033017.
    3. M. Feldman, Mapping nonlinear forces with congruent vibration functions, MSSP, 37(2013), pp. 315-337. text PDF: 2.7MB
    4. M. Feldman, Hilbert transform methods for nonparametric identification of nonlinear time varying vibration systems, MSSP, 47 (2014), pp. 66-77. text PDF: 1.54MB
    5. N. Cohen, I. Bucher and M. Feldman, Slow-fast response decomposition of a bi-stable energy harvester, Mechanical Systems and Signal Processing, v.31 (2012), Pages: 29-39. text PDF: 1.4MB
    6. M. Feldman, Nonparametric identification of asymmetric nonlinear vibration systems with the Hilbert transform, Journal of Sound and Vibration. 331 (2012), pp. 3386-339. text PDF: 0.9MB
    7. M. Feldman, Hilbert transform in vibration analysis. Tutorial Review, Mechanical Systems and Signal Processing, Volume 25, Issue 3, 2011, pp. 735-802. text PDF: 3,431KB
    8. M. Feldman, I. Bucher and J. Rotberg. Experimental Identification of Nonlinearities under Free and Forced Vibration using the Hilbert Transform, Journal of Vibration and Control, 2009, 15(10), pp. 1563-1579. text PDF: 746KB
    9. M. Feldman. Hilbert Transform, Envelope, Instantaneous Phase and Frequency. Encyclopedia of Structural Health Monitoring. John Wiley & Sons Ltd, 2009, 2960 p. text PDF: 800KB
    10. M. Feldman. Theoretical analysis and comparison of the Hilbert transform decomposition methods. Mechanical Systems and Signal Processing, 2008, Vol 22/3 pp. 509-519. text PDF: 530KB
    11. O. V. Gendelman, Y. Starosvetsky and M. Feldman. Attractors of harmonically forced linear oscillator with attached nonlinear energy sink I: Description of response regimes. Nonlinear Dynamics, V. 51/1-2 , 2008, pp. 31-46. text PDF: 752KB
    12. Feldman M. Identification of weakly nonlinearities in multiple coupled oscillators. Journal of Sound and Vibration. 2007, Vol.303, pp. 353-370. text PDF: 488KB
    13. Feldman M. Considering High Harmonics for Identification of Nonlinear Systems by Hilbert Transform. Mechanical Systems and Signal Processing, 2007, Vol 21/2, pp. 943-958. text PDF: 781KB
    14. Feldman M. Time-Varying Vibration Decomposition and Analysis Based on the Hilbert Transform. Journal of Sound and Vibration. 2006, Vol 295/3-5 pp. 518-530. text PDF: 550KB
    15. E. Zussman, A. L. Yarin, A. V. Bazilevsky, R. Avrahami, M. Feldman. Electrospun PAN/PMMA-derived Turbostratic Carbon Micro-/nanotubes. ADVANCED MATERIALS, v. 18, N 3, 348-353 (2006).
    16. Minikes A., Gabay R., Bucher I., and Feldman M. On the Sensing and Tuning of Progressive Structural Vibration Waves, IEEE Transactions On Ultrasonics, Ferroelectrics, And Frequency ControL, 2005, v. 52, n 9, pp. 1565 – 1576.
    17. Feldman M., Hilbert Transforms, in Encyclopedia of Vibration. New York: Academic, 2001, pp. 642-648.
    18. Zacksenhouse M., S. Braun, M. Feldman and M. Sidahmed, Toward helicopter gearbox diagnostics from a small number of examples. MSSP special issue on Helicopter Health Monitoring 14(4), 2000, pp. 523-543.
    19. Feldman M., Seibold S. Damage diagnosis of rotors: application of Hilbert-transform and multi-hypothesis testing. Journal of Vibration and Control, 1999, 5, p 421-445 text PDF: 927K
    20. Gottlieb O., Feldman M. Application of a Hilbert Transform-Based Algorithm for Parameter Estimation of a Nonlinear Ocean System Roll Modell. Journal of Offshore Mechanics and Arctic Engineering. ASME, 1997, v 119, n, p.
    21. Feldman M. Non-Linear Free Vibration Identification via the Hilbert Transform. Journal of Sound and Vibration. v 208, n 3, December 4, 1997, p 475-489 text PDF: 247K
    22. S. Braun and M. Feldman. TIME-FREQUENCY CHARACTERISTICS OF NON-LINEAR SYSTEMS. Mechanical Systems and Signal Processing, v 11, n 4, July 1997, p 611-620, (ID pg970091) text PDF: 218K
    23. Gotlieb O., Feldman M., Yim S.C.S. Parameters identification of Nonlinear ocean mooring systems using the Hilbert transform. Journal of offshore mechanics and Arctic engineering. ASME, 1996, v 118, n 1, p.29
    24. M.Feldman, Non-linear system vibration analysis using Hilbert transform — I. Free vibration analysis method “FREEVIB”., Mechanical Systems and Signal Processing, 1994, 8(2), 119-127 pp.
    25. M.Feldman, Non-linear system vibration analysis using Hilbert transform — II. Forced vibration analysis method “FORCEVIB”, Mechanical Systems and Signal Processing, 1994, 8(3), 309-318 pp.
    26. Feldman M.S., Implementation of instantaneous frequency and amplitude of random loading for fatigue durability estimation, “Machinbildings” (Izv. Vuzov Machinostroenie) n 5, 1985, 20-24 pp.
    27. M.Feldman, Investigation of machine’s element free vibration by Hilbert transform, Soviet machine science, (Mashinovedenie), Moscow, Nauka, 1985, n 2, 48-51 pp.

 

Papers at Conferences and Published in Conference Proceedings:

  1. M. Feldman, S. Braun, Hilbert Transform: from fundamentals to some applications, The 4th International Conference on Condition Monitoring of Machinery in Non-Stationary Operations (CMMN0’2014), Lyon (France), 2014.
  2. Feldman M., Nonparametric identification of asymmetric nonlinear vibration systems with the Hilbert transform, The biennial ISMA conference on Noise and Vibration Engineering, 2012, Conference Proceedings, Leuven. Belgium, 2012.
  3. Feldman M. Hilbert transform separation and analysis of multicomponent oscillations, 4th International Conference on Localization, Energy Transfer and Nonlinear Normal Modes in Mechanics and Physics – NNM2012, Technion, Hafa, Israel, 2012.
  4. A. Cappellini, A. Carrella, M. Feldman, Measuring Dynamic Nonlinearities using the Frequency Response and the Hilbert Transform Methods, The biennial ISMA conference on Noise and Vibration Engineering, 2010, Conference Proceedings, Leuven, Belgium, 2010.
  5. Feldman M. Hilbert transform achievements in vibration analysis, The 31st Israeli Conference on Mechanical Engineering (ICME 2010), 2-3 June, 2010, Tel Aviv.
  6. Feldman M. Hilbert transform decompositions of vibration: application and practical recommendations. The biennial ISMA conference on Noise and Vibration Engineering, 2008, Conference Proceedings, Leuven, Belgium, 2008.
  7. Feldman M., Decomposition and Analysis of Non-Stationary Dynamic Signals Using the Hilbert Transform. Proceedings of the 9th Biennial ASME Conference on Engineering Systems Design and Analysis, ESDA2008, July 7-9, 2008, Haifa, Israel, ESDA2008-59201.
  8. Feldman M., Time-Varying And Non-Linear Dynamical System Identification Using The Hilbert Transform, Proceedings of ASME VIB 2005: 20th Biennial Conference on Mechanical Vibration and Noise, September 24-28, 2005 Long Beach, DETC2005-84644. text PDF: 2.8MB
  9. Bucher I., Feldman M., Minikes A., and Gabay R. Real-time traveling waves and whirl decomposition. Vibrations in Rotating Machinery: Proceedings by Imeche (Institution of Mechanical Engineers), John Wiley and Sons, IMechE 2004, pp. 261-268.
  10. Bucher I., Feldman M., Gabay R. Analysis the vibration of an asymmetric system under an electromagnetic field., International Conference on Noise and Vibration Engineering, Proceedings of ISMA2002 – v. III, Leuven, 2002, pp. 1223- 1227.
  11. Braun S., M. Feldman, M. Sidahmed and M. Zacksenhouse, Vibration signal processing for the Westland helicopter data. IMAC-XVII, Kissimmee, Florida, February, 1999, pp. 1347-1358.
  12. Braun S., M. Feldman, M. Sidahmed and M. Zacksenhouse, Vibration Based Gear Diagnostics with application to Westland helicopter data. 3rd Int. Conf. Acoustical and Vibratory Surveillance Methods and Diagnostic Techniques. 129-144, Senlis, France, October 1998.
  13. M.Feldman. Identification of Non-Linear Free Vibration: Time Domain Hilbert ransform Approach. The 7th Conference on Nonlinear Vibrations, Stability, and Dynamics of Structures. Blacksburg, Virginia, July 26-30, 1998
  14. S. Braun, M. Feldman, M. Sidahmed, M. Zacksenhouse. Vibration based gear diagnostics with application to westland helicopter data. The 3rd International Conf, Acoustical and Vibratory Surveillance Methods and Diagnostics Techniques, Senlis, France, October 13-15 1998.
  15. Feldman M., Braun S. Description of non-linear conservative SDOF systems. Proc. of the VI International Conference on Recent Advance in Structural Dynamics. Southampton, England, 1997, pp. 1657-1667
  16. Feldman M., Braun S. Description of free responses of SDOF systems via the phase plane and Hilbert transform: the concepts of envelope and Instantaneous frequency. Proc. of the XV Int. Modal Analysis Conf., Orlando, Florida, 1997, 973- 979 pp.
  17. Feldman M. Vibration analysis of non-symmetric elastic force systems via the Hilbert transform Proc. of the XV Int. Modal Analysis Conf., Orlando, Florida, 1997,
  18. Braun S., Feldman M., Grushkevich A. Identification of electromagnetic damping force for a rotating system. Proc. of the XIV Int. Modal Analysis Conf., Dearborn, Michigan, USA, 1996,
  19. Feldman M., Braun S. Diagnostics of nonlinear vibration systems on the basis of the Hilbert transform. Proc. of the ASME Fifteenth Biennial Conference on Mechanical Vibration and Noise Conf., Boston, Massachusetts, 1995, V 3, 1241-1248 pp.
  20. Feldman M., Braun S. Non-linear spring and damping forces estimation during free vibration. Proc. of the ASME Fifteenth Biennial Conference on Mechanical Vibration and Noise Conf., Boston, Massachusetts, 1995, V 3, 1241-1248 pp.
  21. M.Feldman, S.Braun. Non-stationary vibration analysis by using the Hilbert transform. Proc. of the Vibration and Noise ’95 Conf. Venecia, Italy, 1995, 465-475 pp.
  22. M.Feldman, S.Braun. Identification of non-linear system parameters via the instantaneous frequency: application of the Hilbert transform and Wigner Ville techniques, Proc. of the XIII Int. Modal Analysis Conf., Nashville, Tennessee, 1995, 637-642 pp.
  23. M.Feldman, S.Braun. Processing for instantaneous frequency of 2-component signal: the use of the Hilbert transform, Proc. of the XIII Int. Modal Analysis Conf., Nashville, Tennessee, 1995, pp.
  24. M.Feldman, Y. Ben-Haim. Experimental investigation of lap-joint dynamics, Proc. of the XIII Int. Modal Analysis Conf., Nashville, Tennessee, 1995, pp.
  25. M.Feldman, S.Braun. Decomposition of double-component vibration signals. Proc. of the 25th Israel conf. on mechanical engineering, Technion, 1994, 700-702 pp.
  26. O.Gottlieb, M.Feldman, S.Braun, S.C.S.Yim. Estimation of non-linear ocean mooring system parameters via the Hilbert transform, Proc. of the 25th Israel conf. on mechanical engineering, Technion, 1994, 393-395 pp.
  27. M.Feldman, S. Braun. Non-linear vibration analysis of a robot arm. Proc. of the XII Int. Modal Analysis Conf., Honolulu, Hawaii, 1994, 1692-1697 pp.
  28. M.Feldman, S. Braun. Analysis of typical non-linear vibration system by using the Hilbert transform., Proc. of the XI Int. Modal Analysis Conf., Kissimmee, Florida, 1993, 799-805 pp.
  29. M.Feldman, Y. Ben-Haim, S. Braun. Analysis of non-linear robot dynamic system, Proc. of the 24th Israel conf. on mechanical engineering, Technion, 1992.
  30. M.Feldman, Dobrynin S.A., Firsov G.I. Modeling and identification of a manipulator dynamic system using data of computer aided experiment, Proc.of the III Int.conf. of problems of industrial robots control “ROBKON-3”, Sofia, ITKR BAN, 1986, 243-248 pp.
  31. M.Feldman, Dobrynin S.A. Dissipation characteristics detection of vibrating system by instantaneous amplitude and frequency, Proc.of the XIII republican conf.”Energy dissipation in mechanical vibration system “. Kiev, Naukova dumka, 1985, 65-71 pp.

Patent and Invention Certificates:

  1. M.Feldman. Device and method for determination of vibration system modal parameters, Israel patent n 098985, Patents and designs journal, 1992, No 5, p.1378.
  2. Feldman M.S., Brufman S.S., Dobrynin S.A., Rosenblum M.G. Device for vibration system nonlinear characteristics detection, Patent USSR 1287116, Published 30.01.1987. BOI, 1987, n 4, 211-212 pp.