C. Wen
[1] D.C.H. Yang & Z.S. Sun, A rotary model for spur gear dynamics, Journal of Mechanisms Transmissions and Automation in Design, 107, 1985, 529–535. [2] M. Nordin & P. Gutman, Controlling mechanical systems with backlash – A survey, Automatica, 38, 2002, 1633–1649. [3] M. Balasubramaniam, E. Golaski, S.K. Son, K. Sriram, & A. Slocum, An anti-backlash two-part shaft coupling with interlocking elastically averaged teeth, Precision Engineering, 26, 2002, 314–330. [4] S.J. Huang & C.Y. Shy, Intelligent control for handling motion nonlinearity in a retrofitted machining table, IEE Proceedings: Control Theory and Applications, 145, 1998, 403–408. [5] D.R. Seidl, S.L. Lam, J.A. Putman, & R.D. Lorenz, Neural network compensation of gear backlash hysteresis in position-controlled mechanisms, IEEE Transaction on Industry Applications, 31, 1995, 1475–1483. [6] U.C.K. Leroy, Anti-backlash servomotor drive system, U. S. Patent: 3833847, 1974, 1–6. [7] H.-K. Park, S.S. Kim, J.-M. Park, T.Y. Cho, & D. Hong, Dynamics of dual-drive servo mechanism, IEEE International Symposium on Industrial Electronics, 3, 2001, 1996–2000. [8] C.B. Mayer, P.J. Crescenzo, & D.A. Fenton, Elimination of electromechanical drive system problems during the design process, IEEE Transaction on Industry Applications, 20, 1984, 873–880. [9] Y. Inoue & A. Seireg, Simulation of dual branched gear systems during selective engagement of the prime movers, Journal of Mechanisms, Transmissions, and Automation in Design, 107, 1985, 437–442. [10] J. Regitz, Evaluation of mill drive options, IEEE Transaction on Industry Applications, 32, 1996, 653–662. [11] A. Parey & N. Tandon, Spur gear dynamic models including defects: A review, Shock and Vibration Digest, 35, 2003, 465–478. [12] M. Ebrahimi & R. Whalley, Analysis, modelling and simulation of stiffness in machine tool drives, Computers and Industrial Engineering, 38, 2000, 93–105.
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