Jinglei Zhou, Zhenwu Li, Guizhi Lv, and Endong Liu


  1. [1] K.J. Cheng and P.Y. Cheng, Investigation on velocity performance deviation of serial manipulators resulted from fabrication errors, International Journal of Robotics and Automation, 32(4), 2017, 324–332.
  2. [2] Z.X. Yang and D. Zhang, Energy optimal adaption and motion planning of a 3-RRS balanced manipulator, International Journal of Robotics and Automation, 34(5), 2019, doi: 10.2316/J.2019.206-0171.
  3. [3] D. Cafolla, M. Wang, G. Carbone, et al., LARMbot: A new humanoid robot with parallel mechanisms, Proc. 21st CISM-IFToMM Symposium, Udine, Italy, 2016, 275–283.
  4. [4] M. Russo, D. Cafolla and M. Ceccarelli, Development of LARMbot 2, a novel humanoid robot with parallel architectures, Proc. 4th IFToMM Symposium on Mechanism Design for Robotics, Udine, Italy, 2018, 17–24.
  5. [5] J. Chen and H. Lau, Policy gradient-based inverse kinematics refinement for tendon-driven serpentine surgical manipulator, International Journal of Robotics and Automation, 34(3), 2019, doi: 10.2316/J.2019.206-5461.
  6. [6] F. Yang, G.L. Zhang, L. Yuan, et al., End-effector optimal tracking control of free-floating space robot, Journal of Astronautics, 37(7), 2016, 846–853.
  7. [7] J.Y. Li, L. Wan, H. Huang, et al., Adaptive control method of underwater vehicle manipulator system under disturbances, Journal of Tianjin University (Science and Technology), 51(4), 2018, 413–421.
  8. [8] C.J. Huang, U. Farooq, H.Y. Liu, et al., A PSO-tuned fuzzy logic system for position tracking of mobile robot, International Journal of Robotics and Automation, 34(1), 2019, doi: 10.2316/J.2019.206-5422.
  9. [9] Z. Shams and S. Seyedtabaii, Nonlinear flexible link robot joint-fault estimation using TS-fuzzy observers, International Journal of Robotics and Automation, 35(1), 2020, doi: 10.2316/J.2020.206-0214.
  10. [10] Z. Geng, Study on the position control of electric cylinder based on fuzzy adaptive PID, International Journal of Robotics and Automation, 35(3), 2020, doi: 10.2316/J.2020.206-5226.
  11. [11] Q. Zhou, H.Y. Li, and P. Shi, Decentralized adaptive fuzzy tracking control for robot finger dynamics, IEEE Transactions on Fuzzy Systems, 23(3), 2015, 501–510.
  12. [12] C. Ham, Z. Qu, and R. Johnson, Robust fuzzy control for robot manipulators, IEE Proceedings-Control Theory Applications, 147(2), 2000, 212–216.
  13. [13] Y.Q. Wei, J.D. Zhang, L. Hou, et al., Backstepping adaptive fuzzy control for two-link robot manipulators, IJCSI International Journal of Computer Science Issues, 10(2), 2013, 303–308.
  14. [14] M.M. Azimi and H.R. Koofigar, Adaptive fuzzy backstepping controller design for uncertain underactuated robotic systems, Nonlinear Dynamics, 79(2), 2015, 1–12.
  15. [15] Z.J. Yang and H.G. Zhang, A fuzzy adaptive tracking control for a class of uncertain strick-feedback nonlinear systems with dead-zone input, Neurocomputing, 272, 2018, 130–135.
  16. [16] D.A. Gabriel, Shoulder and elbow muscle activity in goal-directed arm movements, Experimental Brain Research, 116(2), 1997, 359–366.
  17. [17] N.T. Antony and P.J. Keir, Effects of posture, movement and hand load on shoulder muscle activity, Journal of Electromyography and Kinesiology, 20(2), 2010, 191–198.
  18. [18] T.L. Shen, Robust control fundamentals of robot (Beijing: Tsinghua University Press, 2000).
  19. [19] Y.X. Wu and C. Wang, Adaptive neural network control and leaning for uncertain robot, Control Theory & Applications, 30(8), 2013, 990–997.
  20. [20] S. Malagari and B.J. Driessen, Globally exponential controller/observer for tracking in robots with DC motor dynamics and only link position measurement, International Journal of Modelling, Identification and Control, 19(1), 2013, 1–12.
  21. [21] V.M. Hernandez-Guzman and J. Orrante-Sakanassi, Global PID control of robot manipulators equipped with PMSMS, Asian Journal of Control, 20(1), 2018, 236–249.
  22. [22] Z.H. Man and M. Palaniswami, Robust tracking control for rigid robotic manipulators, IEEE Transactions on Automatic Control, 39(1), 1994, 154–159.
  23. [23] K. Mu, C. Liu and J. Z. Peng, Robust tracking control for robotic manipulator via fuzzy logic system and H∞ approaches, Journal of Control Science and Engineering, 2015, 2015, Article ID 459431, 10 pages.
  24. [24] W. Ha and J. Back, A disturbance observer-based robust tracking controller for uncertain robot manipulators, International Journal of Control, Automation and System, 16(2), 2018, 417–425.
  25. [25] D.Y. Zhao, S.Y. Li, Q.M. Zhu, et al., Robust finite-time control approach for robotic manipulators, IET Control Theory & Applications, 4(1), 2010, 1–15.
  26. [26] J.Z. Peng and Y. Liu, Adaptive robust quadratic stabilization tracking control for robotic system with uncertainties and external disturbances, Journal of Control Science and Engineering, 2014, 2014, Article ID 715250, 10 pages.
  27. [27] M. Vijay and D. Jena, Backstepping terminal sliding mode control of robot manipulator using radial basis functional neural networks, Computers and Electrical Engineering, 67, 2018, 690–707.
  28. [28] M.D. Tran and H.J. Kang, Adaptive terminal sliding mode control of uncertain robotic manipulators based on local approximation of a dynamic system, Neurocomputing, 228, 2017, 231–240.
  29. [29] Y.Y. Min and Y.G. Liu, Barbalat lemma and its application in analysis of system stability, Journal of Shandong University (Engineering Science), 37(1), 2007, 51–56.
  30. [30] J.L. Zhou, and Q.L. Zhang, Adaptive fuzzy control of uncertain robotic manipulator, Mathematical Problem in Engineering, 2018, 2018, Article ID 4703492, 10 pages.
  31. [31] V. Nekoukar and A. Erfanian, Adaptive fuzzy terminal sliding mode control for a class of MIMO uncertain nonlinear systems, Fuzzy Sets and Systems, 179, 2011, 34–49.
  32. [32] X.Y. Zhang, Application of direct adaptive fuzzy sliding mode control into a class of non-affine discrete nonlinear systems, Frontiers of Information Technology & Electronic Engineering, 17(12), 2016, 1331–1343.
  33. [33] S.C. Tong, S.A. Sui, and Y.M. Li, Fuzzy adaptive output feedback control of MIMO nonlinear systems with partial tracking errors constrained, IEEE Transactions on Fuzzy Systems, 23(4), 2015, 729–742.
  34. [34] V.C. Pham and Y.N. Wang, Adaptive trajectory tracking neural network control with robust compensator for robot manipulators, Neural Computing & Applications, 27(2), 2016, 525–536.
  35. [35] J.L. Zhou, Backstepping adaptive fuzzy control for uncertain robot manipulator, International Journal of Robotics and Automation, 33(6), 2018, 620–627.

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