[1] YU Yongqiang, GUO Hong, XIE Zhanming. Neural network adaptive sliding mode control for direct-drive servo system [J]. Transactions of China Electrotechnical Society, 2009, 24(3):74–85.
[2] WU Zhong, LIU Yuandu. The practical application of harmonic drive [J]. Aviation Precision Manufacturing Technology, 2005, 41(4):23–25.
[3] WANG Guomin, YAO Zhengqiu, MA Lisheng, et al. High precision friction drive of large telescope [J]. Optics and Precision Engineering, 2004, 12(6):592–597.
[4] WANG Hu, CHENG Juan, YIN Lipeng, et al. Servo control technologies in electro-optical tracking system [J]. Journal of Changchun University of Technology, 2009, 30(5):533–539.
[5] Prasanna S Gandhi, Fathi H Ghorbel. Closed-loop compensation of kinematic error in harmonic drives for precision control applications [J]. IEEE Transactions on Control Systems Technology(S1063-6536), 2002, 10(6):759-768.
[6] Tjahjowidodo T, Al-Bender F, Van Brussel H. Theoretical modeling and experimental identification of nonlinear torsional behavior in harmonic drives [J]. Mechatronics(S0957-4158), 2013, 23(5):497-504.
[7] LU Yusheng, LIN Shuanmin. Disturbance-observer based adaptive feedforward cancellation of torque ripples in harmonic drive system [J]. Electrical Engineering(S0948-7921), 2007, 90(2):95-106.
[8] ALIREZA Tadayoni, XIE Wenfang, BRANDON W Gordon. Adaptive control of harmonic drive with parameter varying friction using structurally dynamic wavelet network [J]. International Journal of Control, Automation, and Systems(S2005-4092), 2011, 9(1):50-59.
[9] Mokoto Iwasaki, Masafumi Yamamoto, Hiromu Hirai, et al. Modeling and compensation for angular transmission error of harmonic drive gearing in high precision positioning [C]// IEEE International Conference on Advanced Intelligent Mechatronics, Singapore, July 14-17, 2009, 10:662-667.
[10] Vassileva D, Kiyosawa Y, Suzuki M. Sensorless torque control a robot with harmonic drive reducers [J]. Mechanics Based Design of Structures and Machines(S1539-7742), 2011, 39(39):253-267.
