Yong Liu and Wusheng Chou


  1. [1] K.-Y. Kim, D.G. Manley, H. Yang, and B.O. Nnaji, Ontology-based virtual assembly model for collaborative virtual prototyping and simulation, Proc. 2005 Int. Symposium on Collaborative Technologies and Systems, St. Louis, MO, 2005, 251–258.
  2. [2] Christiand and J. Yoon, Assembly simulations in virtual environments with optimized haptic path and sequence, Robotics and Computer-Integrated Manufacturing, 27(2), 2011, 306–317.
  3. [3] K. Houston, A. Sieber, C. Eder, O. Vittorio, A. Menciassi, and P. Dario, A teleoperation system with novel haptic device for micro-manipulation, International Journal of Robotics and Automation, 26(3), 2011, 247–254.
  4. [4] A.F. Abate, M. Guida, P. Leoncini, M. Nappi, and S. Ricciardi, A haptic-based approach to virtual training for aerospace industry, Journal of Visual Languages and Computing, 20(5), 2009, 318–325.
  5. [5] P.X. Liu, W. Zheng, and B. Chebbi, Surgical simulation with high-fidelity haptic feedback, International Journal of Robotics and Automation, 22(1), 2007, 59–67.
  6. [6] J. Ueda and T. Yoshikawa, Force-reflecting bilateral teleoperation with time delay by signal filtering, IEEE Transactions on Robotics and Automation, 20(3), 2004, 613–614.
  7. [7] R.J. Adams and B. Hannaford, Stable haptic interaction with virtual environments, IEEE Transactions on Robotics and Automation, 15(3), 1999, 456–474.
  8. [8] R.J. Adams and B. Hannaford, Control law design for haptic interfaces to virtual reality, IEEE Transactions on Control Systems Technology, 10(1), 2002, 3–13.
  9. [9] C. Secchi, S. Stramigioli, and C. Fantuzzi, Digital passive geometric telemanipulation, Proc. IEEE Int. Conf. Robotics and Automation, Taipei, Taiwan, 2003, 3290–3295.
  10. [10] J.J. Gil, E. Sánchez, T. Hulin, C. Preusche, and G. Hirzinger, Stability boundary for haptic rendering: Influence of damping and delay, Journal of Computing and Information Science in Engineering, 9(1), 2009, 124–129.
  11. [11] J.J. Gil, A. Avello, A. Rubio, and J. Florez, Stability analysis of a 1 DOF haptic interface using the Routh–Hurwitz criterion, IEEE Transactions on Control Systems Technology, 12(4), 2004, 583–588.
  12. [12] J.J. Abbott and A.M. Okamura, Effects of position quantization and sampling rate on virtual-wall passivity, IEEE Transactions on Robotics, 21(5), 2005, 952–964.
  13. [13] B. Yalcin and K. Ohnishi, Stable and transparent time-delayed teleoperation by direct acceleration waves. IEEE Transactions on Industrial Electronics, 57(9), 2010, 3228–3238.
  14. [14] N. Diolaiti, G. Niemeyer, F. Barbagli, and J.K. Salisbury, Stability of haptic rendering: Discretization, quantization, time delay, and coulomb effects, IEEE Transactions on Robotics, 22(2), 2006, 256–268.
  15. [15] C. Cho, J.-B. Song, and M. Kim, Stable haptic display of slowly updated virtual environment with multirate wave transform, IEEE/ASME Transactions on Mechatronics, 13(5), 2008, 566–568.
  16. [16] J.-P. Kim, C. Seol, and J. Ryu, A multirate energy bounding algorithm for high fidelity stable haptic interaction control, SICE–ICASE International Joint Conference, Busan, Korea, 2006, 215–220.
  17. [17] K. Lee and D.Y. Lee, Adjusting output-limiter for stable haptic rendering in virtual environments, IEEE Transactions on Control Systems Technology, 17(4), 2009, 768–779.
  18. [18] K. Hosseini-Suny, H. Momeni, and F. Janabi-Sharifi, A modified adaptive controller design for teleoperation systems, Robotics and Autonomous Systems, 58(5), 2010, 676–683.
  19. [19] M.A. Otaduy and M.C. Lin, A modular haptic rendering algorithm for stable and transparent 6-DOF manipulation, IEEE Transaction on Robotics, 22(4), 2006, 751–758.
  20. [20] B. Hannaford and J.-H. Ryu, Time-domain passivity control of haptic interfaces, IEEE Transactions on Robotics and Automation, 18(1), 2002, 1–10.
  21. [21] J.-H. Ryu, C. Preusche, B. Hannaford, and G. Hirzinger, Time domain passivity control with reference energy following, IEEE Transactions on Control Systems Technology, 13(5), 2005, 737–742.
  22. [22] C. García, M. Artigas, R. Aracil, and R. Saltarén, Optimal analysis of a teleoperated system with an adaptative controller, International Journal of Robotics and Automation, 26(4), 2011, 389–400.
  23. [23] A. Abdossalami and S. Sirouspour, Adaptive control for improved transparency in haptic simulations, IEEE Transactions on Haptics, 2(1), 2009, 1939–1421.
  24. [24] Y. Gu, C. Zhang, and K.T. Chong, Adaptive passive control with varying time delay, Simulation Modelling Practice and Theory, 18(1), 2010, 1–8.
  25. [25] H.F. Shi and S. Payandeh, GPU in haptic rendering of deformable objects, EuroHaptics, 5024, 2008, 163–168.
  26. [26] J.-P. Kim, B.-C. Lee, H. Kim, and J. Ryu, Accurate and efficient CPU/GPU-based 3-DOF haptic rendering of complex static virtual environments, Presence: Teleoperators and Virtual Environment, 18(5), 2009, 340–360.
  27. [27] I. Peterlik and J. Filipovic, Distributed construction of configuration spaces for real-time haptic deformation modelling, IEEE Transactions on Industrial Electronics, 58(8), 2009, 3205–3212.
  28. [28] R. Mafi, S. Sirouspour, B. Mahdavikhah, B. Moody, K. Elizeh, A.B. Kinsman, and N. Nicolici, A parallel computing platform for real-time haptic interaction with deformable bodies, IEEE Transactions on Haptics, 3(3), 2010, 211–217.
  29. [29] K. Wang, The research on mechanism of tactile discriminative vibrating frequency, Journal of Nantong University, 6(4), 2007, 67–70.
  30. [30] Y.-A. Lim, J.-P. Kim, and J. Ryu, Stability enhancement of haptic interaction by frequency-dependent damping and its application to scaled teleoperation, International Journal of Applied Electromagnetics and Mechanics, 36(1–2), 2011, 11–27.
  31. [31] D. Ryu, J.-B. Song, J. Choi, S. Kang, and M. Kim, Design of a haptic stability observer in frequency domain for stable haptic interaction, SCIE–ICASE International Joint Conference, Busan, Korea, 2006, 198–202.
  32. [32] R.S. Sutton, Reinforcement learning, (Kluwer Academic Publishers, 1992), 289–325.
  33. [33] N. Hogan, Controlling impedance at the man/machine, Proc. IEEE Int. Conf. on Robotics and Automation, Scottsdale, AZ, 1989, 1626–1631.
  34. [34] E.I. Jury, Comments on the stability criterion of Lienard and Chipart, Linear Algebra and Its Applications, 47, 1982, 169–171.
  35. [35] M.H. Lee and D.Y. Lee, Stability of haptic interface using nonlinear virtual coupling, IEEE International Conference on Systems, Man and Cybernetics, 4, 2003, 3420–3424.

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