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SCIENCE CHINA Information Sciences, Volume 62, Issue 5: 050204(2019) https://doi.org/10.1007/s11432-018-9663-1

Human-micromanipulator cooperation using a variable admittance controller

More info
  • ReceivedAug 16, 2018
  • AcceptedOct 7, 2018
  • PublishedMar 28, 2019

Abstract

There is no abstract available for this article.


References

[1] Taylor R, Jensen P, Whitcomb L. A Steady-Hand Robotic System for Microsurgical Augmentation. Int J Robotics Res, 1999, 18: 1201-1210 CrossRef Google Scholar

[2] Cecil J, Kumar M B B R, Lu Y. A review of micro-devices assembly techniques and technology. Int J Adv Manuf Technol, 2016, 83: 1569-1581 CrossRef Google Scholar

[3] Mitchell B, Koo J, Iordachita I, et al. Development and application of a new steady-hand manipulator for retinal surgery. In: Proceedings of IEEE International Conference on Robotics and Automation, 2007. 623--629. Google Scholar

[4] Lecours A, Mayer-St-Onge B, Gosselin C. Variable admittance control of a four-degree-of-freedom intelligent assist device. In: Proceedings of International Conference on Robotics and Automation, 2012. 3903--3908. Google Scholar

[5] Ficuciello F, Villani L, Siciliano B. Variable Impedance Control of Redundant Manipulators for Intuitive Human-Robot Physical Interaction. IEEE Trans Robot, 2015, 31: 850-863 CrossRef Google Scholar

[6] Li H Y, Paranawithana I, Yang L. Stable and Compliant Motion of Physical Human-Robot Interaction Coupled With a Moving Environment Using Variable Admittance and Adaptive Control. IEEE Robot Autom Lett, 2018, 3: 2493-2500 CrossRef Google Scholar

[7] Degirmenci A, Hammond F L, Gafford J B, et al. Design and control of a parallel linkage wrist for robotic microsurgery. In: Proceedings of IEEE/RSJ International Conference on Intelligent Robots and Systems (IROS), 2015. 222--228. Google Scholar

[8] Li H Y, Nuradha T, Xavier A, et al. Towards a compliant and accurate cooperative micromanipulator using variable admittance control. In: Proceedings of IEEE International Conference on Advanced Robotics and Mechatronics (ICARM), 2018. Google Scholar

[9] Landi C T, Ferraguti F, Sabattini L, et al. Admittance control parameter adaptation for physical human-robot interaction. In: Proceedings of IEEE International Conference on Robotics and Automation (ICRA), 2017. 2911--2916. Google Scholar

  • Figure 1

    (Color online) (a) Overview of research objective; (b) the microsurgical robotics system; (c) the path of the needle from insertion (point 1) to extraction (point 2) under the microscope imaging; (d) first experiment result's path 1 to 3 (controller comparison); (e) second experiment result (with or without the robot comparison) – insertion only.

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