J.B. Huang, Z.W. Xie, H. Liu, and K. Sun
[1] T.D. Tuttle & W.P. Seering, A nonlinear model of a harmonic drive gear transmission, IEEE Transactions on Robotics and Automation, 12 (3), 1996, 368–374. [2] N.M. Kircanski & A.A. Goldenberg, An experimental study of nonlinear stiffness, hysteresis, and friction effects in robot joints with harmonic drives and torque sensors, International Journal of Robotics Research, 16 (2), 1997, 214–239. [3] P.S. Gandhi, F.H. Ghorbel, & J. Dabney, Modeling, identification, and compensation of friction in harmonic drives, Proc. 41st IEEE Conference on Decision and Control, 1, 2002, 160–166. [4] R. Dhaouadi, F.H. Ghorbel, & P.S. Gandhi, A new dynamic model of hysteresis in harmonic drives, IEEE Transactions on Industrial Electronics, 50 (6), 2003, 1165–1171. [5] J.W. Sensinger & R.F. Weir, Improved torque fidelity in harmonic drive sensors through the union of two existing strategies, IEEE/ASME Transactions on Mechatronics, 11 (4), 2006, 457–461. [6] J.P. Hauschild & G.R. Heppler, Control of harmonic drive motor actuated flexible linkages, IEEE International Conference on Robotics and Automation, 2007, 3451–3456. [7] N. Hogan, Impedance control: An approach to manipulation: Theory (part 1); Implementation (part 2); Applications (part 3), ASME Journal of Dynamics Systems, Measurement, and Control, 107, 1985, 1–24. [8] H. Kazerooni, T.B. Sheridan, & P.K. Houpt, Robust compliant motion for manipulators: The fundamental concepts of compliant motion (part I); design method (part II), IEEE Journal of Robotics and Automation, RA-2 (2), 1986, 83–105. [9] S.A. Schneider & R.H. Cannon, Jr, Object impedance control for cooperative manipulation: Theory and experimental results, IEEE Transactions on Robotics and Automation, 8, 1992, 383–394. [10] J.J. Gonzalez & G.R. Widmann, A force commanded impedance control scheme for robots with hard nonlinearities, IEEE Transactions on Control System Technology, 3, 1995, 398–408. [11] A. Albu-Sch¨affer, C. Ott, & G. Hirzinger, A unified passivity-based control framework for position, torque and impedance control of flexible joint robots, International Journal of Robotics Research, 26 (1), 2007, 23–39. [12] A. Albu-Sch¨affer & G. Hirzinger, A globally stable state feedback controller for flexible joint robots, Advanced Robotics, 15 (8), 2001, 799–814. [13] G. Hirzinger, J. Butterfass, et al., Space robotics-driver for a new mechatronic generation of light-weight arms and multifingered hands, IEEE/ASME International Conference on Advanced Intelligent Mechatronics, 2, 2001, 1160–1168. [14] M.W. Spong, Modeling and control of elastic joint robots, ASME Journal of Dynamic Systems, Measurement, and Control, 109, 1987, 310–319. [15] W.-H. Zhu, M. Doyon, & J.-C. Piedboeuf, Adaptive control of harmonic drives based on virtual decomposition, IEEE/ASME Transactions on Mechatronics, 11 (5), 2006, 604–614. [16] C. Canudas de Wit, Comments on “A New Model for Control of Systems with Friction , IEEE Transactions on Automatic Control, 43(8), 1998, 1189–1190.
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