Keyi Wang, Haipeng Yang, Wanli Wang, and Zhuang Han


  1. [1] M. Hiller, S.Q. Fang, S. Mielczarek, et al., Design analysis and realization of tendon-based parallel manipulators, Mechanism and Machine Theory, 40(4), 2005, 429–445.
  2. [2] J. Huang, M. Hiller, and S.Q. Fang, Simulation modeling of the motion control of a two degree of freedom tendon based parallel manipulator in operational space using MATLAB, Journal of China University of Mining & Technology, 17(2), 2007, 179–183.
  3. [3] M.S. Varziri and L. Notash, Kinematic calibration of a wireactuated parallel robot, Mechanism and Machine Theory, 42(8), 2007, 960–976.
  4. [4] X.Q. Ye, L.H. Ji, Y.M. Xie, et al., Discussion on combination of traditional Chinese medicine and rehabilitation training robot rehabilitation method, Chinese Journal of Rehabilitation Medicine, 5(8), 2010, 781–784.
  5. [5] J.F. Veneman, R. Kruidhof, E.E.G. Hekman, et al., Design and evaluation of the LOPES exoskeleton robot for interactive gait rehabilitation, IEEE Transactions on Neural Systems and Rehabilitation Engineering September, 15(3), 2007, 379–386.
  6. [6] A.M. Simon, G.R. Brent, and D.P. Ferris, Symmetry-based resistance as a novel means of lower limb rehabilitation, Journal of Biomechanics, 40(6), 2007, 1286–1292.
  7. [7] G. Colombo, M. Joerg, and R. Schreier, et al., Treadmill training of paraplegic patient using a robotic orthosis, Journal of Rehabilitation Research and Development, 37(6), 2000, 693–700.
  8. [8] K. Homma, O. Fukuda, Y. Nagata, et al., Study of a wiredriven leg rehabilitation system – human subject experiments using a 4-DOF experimental system, Proc. 2004 IEEE/RSJ International Conference on Intelligent Robots and Systems, Sendai, Japan, 2004, 1668–1673.
  9. [9] K.Y. Wang, H. Meng, and L.X. Zhang, et al., Static stiffness of plane wire-driven parallel robot, Journal of Harbin Engineering University, 3(9), 2011, 1112–1116.
  10. [10] L.X. Zhang and Y.P. Zou, Modeling and control of an astronauttraining robot in a bench press mode, Journal of Harbin Engineering University, 3(9), 2011, 1179–1184.
  11. [11] L. Li, H.C. Xie, and Q. Chen, To investigate the complex man– machine system man–machine cooperation model, Ergonomics, 13(4), 2007, 36–38.
  12. [12] L.Y. Hou, Y.X. Xie, Q.L. Sun, et al., Clinical analysis of cerebral hemiplegia patients with stroke gait correction training, Chinese Journal of Rehabilitation Medicine, 22(2), 2007, 155–157.
  13. [13] Q.Y. Wang, Gait planning and motion control for gait training robot, Doctoral Dissertation, Shanghai University, Shanghai, China, 2011.
  14. [14] K.Y. Wang, L.X. Zhang, H. Meng, et al., Mechanisms for rigid-flexible gait rehabilitation robot, International Journal of Robotics and Automation, 28(4), 2013, 311–316.
  15. [15] L.X. Zhang, Y.P. Zou, L.M. Sui, et al., Active disturbance rejection force control for astronaut rehabilitative training robot, Robot, 34(2), 2012, 217–222.
  16. [16] K.Y. Wang, C.B. Di, X.Q. Tang, et al., Modeling and simulation to muscle strength training of lower limbs rehabilitation robots, Advances in Mechanical Engineering, 7(1), 2013, Article ID 29843.

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