Jack LB and Nandi AK, 2000, Comparison of neural networks and support vector machines in condition monitoring applications, Proceedings of 13th Conference on Condition Monitoring and Diagnostic Engineering Management (COMADEM), Houston, TX, USA, 2000, pp. 721–730.
Jack LB and Nandi AK, 2000, Support vector machines for detection and characterisation of rolling element bearing faults, Proceedings of Institution of Mechanical Engineers. Part C: Journal of Mechanical Engineering Science 215, 1065–1074.
Jack LB and Nandi AK, 2000, Genetic algorithms for feature extraction in machine condition monitoring with vibration signals, IEE Proceedings of Vision & Image Signal Processing 147, 205–212.
Jack LB and Nandi AK, 2002, Fault detection using support vector machines and artificial neural networks, augmented by genetic algorithms, Mechanical Systems and Signal Processing 16, 373–390.
Jing L and Qu L, 2000, Feature extraction based on morlet wavelet and its application for mechanical fault diagnosis. Journal of Sound and Vibration 234(1), 135–148.
Jordan, MA, 1993, What are orbit plots, anyway? Orbit, December, 8–15.
Karthikeyan M, Tiwari R, and Talukdar S, 2007, Crack Localization and Sizing in a Beam Based on the Free and Forced Response Measurements, Mechanical Systems and Signal Processing 21(3), 1362-1385.
Karthikeyan M, Tiwari R, and Talukdar S, 2007, Development of a technique to locate and quantify a beam crack based on modal parameters, Transactions of ASME, Journal of Vibration and Acoustics 129(3), 390-395.
Karthikeyan M, Tiwari R, and Talukdar S, 2008, Transactions of ASME, Journal of Vibration and Acoustics 130(2), 021002 (14 pages).Development of a Novel Algorithm for a Crack Detection, Localization, and Sizing in a Beam Based on Forced Response Measurements.
Kim YB and Noah ST, 1990, Nonlinear Dynamics 1, 221-241. Bifurcation analysis for a modified Jeffcott rotor with bearing clearances.
Lee Y-S, and Chung M-J, 2000, A study on crack detection using eigen frequency test data, Computers and Structures 77, 327-342.
Lee, YS and Lee, CW, 1999, Journal of Sound and Vibration, 224(1), 15-32. Modelling and vibration analysis of misaligned rotor-ball bearing systems.
Lee CW, Yun JS and Jun OS, 1992, Modeling of a simple rotor with switching crack and its experimental verifications, Transactions of ASME, Journal of Vibration and Acoustics 114, 217-225.
Lei X, Zhang G, Chen J, Xigeng S, and Dong G, 2007, Simulation on the motion of crankshaft with a slant crack in crankpin, Mechanical Systems and Signal Processing, 21(1), 502-513.
Li CJ and Wu SM, 1989, On-line detection of localized defects in bearings by pattern recognition analysis, ASME Journal of Engineering and Industry 111, 331–336.
Li D-Q, Wei Y, Jiang T and Jin Y-L, 2005, Shenyang Gongye Daxue Xuebao (Journal of Shenyang University of Technology)(China). Vol. 27, no. 2, pp. 134-137. Nonlinear vibration of rotor system with pedestal looseness.
Li J and Jun M, 1992, Bearing localized defects detection through wavelet decomposition of vibration. Proceedings of the winter annual meeting of the ASME, Anaheim, California.
Li CJ and Ma J, 1997, Wavelet decomposition of vibrations for detection of bearing-localized defect, NDT & International 30, 143–149.
Lin J and Qu LS, 2000, Feature extraction based on morlet wavelet and its application for mechanical fault diagnosis, Journal of Sound and Vibration 234(1), 135–148.
Lu Y, Ren Z, Chen H, Song N and Wen B, 2007, Key Engineering Materials. Vol. 353-358, Part 4, pp. 2479-2482. 2007. Study on Looseness and Impact-Rub Coupling Faults of a Vertical Dual-disk Cantilever Rotor- Bearing System.
Ma J and Li CJ, 1993, Detection of localized defects in rolling element bearings via composite hypothesis test, Symposium on Mechatronics, DSV-V01. American Society of Mechanical Engineers (50/PED—Vol. 63).
Mallat SG, 1989, A theory for multi-resolution signal decomposition: the wavelet representation. IEEE Transaction on Pattern Analysis and Machine Intelligence, 11(7), 674–93.
Martin HR, 1989, Statistical moment analysis as a means of surface damage detection, Proceedings of the International Modal Analysis Conference, pp. 1016–1021.
McCormick AC and Nandi AK, 1997, Classification of the rotating machine condition using artificial neural networks, Proceedings of Institution of Mechanical Engineers, Part C: Journal of Mechanical Engineering Science 211, 439–450.
McFadden PD and Smith JD, 1984, Vibration monitoring of rolling element bearings by the high frequency resonance technique: a review, Tribology International 15, 3–10.
McFadden PD, 2000, Detection of gear faults by decomposition of matched differences of vibration signals, Mechanical Systems and Signal Processing 14, 805–817.
Morassi A, 2001, Identification of a crack in a rod based on changes in a pair of natural frequencies, Journal of Sound and Vibration 242(4), 577-596.
Mori K, Kasashima M, Yoshioka T and Ueno Y, 1996, Prediction of spalling on a ball bearing by applying discrete wavelet transform to vibration signals. Wear 195, 162–168.
Muszynska A, 1984, Proceedings of the 2nd International Conference on Vibrations in Rotating Machinery, Institute of Mechanical Engineers, York, UK, 327-335. Partial lateral rotor to stator rubs.
Muszynska, A, 1989, Rotor to stationary element rub-related vibration phenomena in rotating machinery-literature survey, Shock and Vibration Digest 21(3), 3–11.
Muszynska A and Goldman P, 1995, Chaos, Solitons & Fractals Volume 5(9), 1683-1704. Some Nonlinear Oscillations Problems in Engineering Sciences. Chaotic responses of unbalanced rotor/bearing/stator systems with looseness or rubs.
Nandi AK, 2000, Advanced digital vibration signal processing for condition monitoring, Proceedings of 13th Conference of Condition Monitoring and Diagnostic Engineering Management (COMADEM), Houston, TX, USA, pp. 129–143.
Nicholas, JC, Gunter, EJ, and Allaire, PE, 1976, ASME, J. Engg. Power, 98(2), 171-189. Effect of residual shaft bow on unbalance response and balancing of a single mass flexible rotor: Part I – Unbalance response: Part II – Balancing.
Owolabi GM, Swamidas ASJ, and Seshadri R, 2003, Crack detection in beams using changes in frequencies and amplitudes of frequency response functions, Journal of Sound and Vibration 265, 1-22.
Papadopoulos CA and Dimarogonas AD, 1987, Coupled longitudinal and bending vibration of rotating shaft with an open crack, Journal of Sound Vibration 117, 81–93.
Parkinson, AG, 1991, Balancing of rotating machinery, IMechE Proceedings C-Journal of Mechanical Engineering Science 205, 53–66.
Pennacchi P and Vania A, 2004, Accuracy in the identification of a generator thermal bow, Journal of Sound and Vibration 274, 273–295.
Pennacchi P, and Vania A, 2005, Shock and Vibration, 12(4), 293-304. Diagnosis and model based identification of a coupling misalignment.
Peter W, Tse YH and Peng RY, 2001, Wavelet analysis and envelope detection for rolling element bearing for rolling element bearing fault diagnosis-their affectivities and flexibilities, Journal of Vibration and Acoustics 123, 303–310.
Piotrowski, J, 1986, Shaft Alignment Handbook. Marcel Dekker, Inc.: New York.
Prabhakar, S, Sekhar, AS, and Mohanty, AR, 2002, Journal of Sound and Vibration 256(4), 773-786. Crack versus coupling misalignment in a transient Rotor system.
Radcliff, GA, 1990, Condition monitoring of rolling element bearings using the enveloping technique. Machine Condition Monitoring. Mechanical Engineering Publication Ltd., London, 55–67.
Randall RB, 1986, Hilbert transform techniques in machine diagnostics. IFToMM International Conference on Rotordynamics, Tokyo.
Randall RB and Gao Y, 1996, Masking effects in digital envelope analysis of faulty bearing signals. Sixth International Conference on Vibrations in Rotating Machinery, IMechE, Oxford, pp. 351–359.
Randall RB, 1997, Development in digital analysis techniques for diagnosis of bearings and gears, Proceedings of the Fifth International Congress on Sound and Vibration, Adelaide, Australia.
Randall RB (guest Ed.), 2001, Special issue on gear and bearing diagnostics, Mechanical Systems and Signal Processing 15(5) 317–328.
Rao, J S, 2001, Mechanism and Machine Theory, 36(5), 563-575. A note on Jeffcott warped rotor.
Sabnavis G, Kirk RG, Kasarda M, and Quinn D, Cracked shaft detection and diagnostics: A literature review, Shock and Vibration Digest 2004, 36(4), 287-296.
Salawu OS, 1997, Detection of structural damage through changes infrequencies: A review, Engineering Structures 19(9), 718-723.
Samanta B, Al-Balushi KR, Al-Araimi SA, 2001, Use of genetic algorithm and artificial neural network for gear condition diagnostics, Proceedings of COMADEM-2001, University of Manchester, UK, pp. 449–456.
Samanta B and Al-Balushi KR, 2001, Use of time domain features for the neural network based fault diagnosis of a machine tool coolant system, Proceedings of Institution of Mechanical Engineers, Part I: Journal of Systems and Control Engineering 215, 199–207.
Samanta B and Al-Balushi KR, 2003, Artificial neural network based fault diagnostics of rolling element bearings using time-domain features, Mechanical Systems and Signal Processing, 15(2), 317–328.
Samanta B, 2004, Mechanical Systems and Signal Processing 18, 625–644. Gear fault detection using artificial neural networks and support vector machines with genetic algorithms
Sandy J, 1988, Monitoring and diagnostics for rolling element bearings, Sound and Vibration 22(6) 16–20.
Scholkopf B, 1998, SVMs—a practical consequence of learning theory, IEEE Intelligent Systems 13, 18–19.
Schwerdlin, H, 1979, Machine Design 51(16), 76-79. Reaction forces in elastomeric couplings.
Sekhar AS and Prabhu BS, 1992, Crack detection and vibration characteristics of cracked shafts, Journal of Sound and Vibration 157(2), 375-381.
Sekhar AS and Prabhu BS, 1995, Effects of coupling misalignment on vibrations of rotating machinery. Journal of Sound and Vibration 185, 655–671.
Shaw SW and Holmes PJ, 1983, Journal of Sound and Vibration 90, 129-155. A periodically forced piecewise linear oscillator.
Shiroishi J, Li Y, Liang S, Kurfess T and Danyluk S, 1997, Bearing condition diagnostics via vibration and acoustic emission measurements, Mechanical Systems and Signal Processing 11, 693–705.
Simon, G., 1992, Prediction of vibration behaviour of large turbo-machinery on elastic foundations due to unbalance and coupling misalignment, Proceedings of the Institution of Mechanical Engineers, Part C—Journal of Mechanical Engineering Science 206, 29–39.
Sinha, JK, Lees, AW, Friswell, MI, 2004, Journal of Sound and Vibration 272, 967–989, Estimating unbalance and misalignment of a flexible rotating machine from a single run-down.