Jie Chen, and Henry Lau


  1. [1] R. A. Beasley, “Medical Robots: Current systems and research directions,” J. Robot., vol. 2012, pp. 1–14, 2012.
  2. [2] K. H. Fuchs, “Minimally invasive surgery,” Endoscopy, vol. 34, no. 2, pp. 154–159, 2002.
  3. [3] M. F. McGee, M. J. Rosen, J. Marks, R. P. Onders, A. Chak, A. Faulx, V. K. Chen, and J. Ponsky, “A primer on natural orifice transluminal endoscopic surgery: Building a new paradigm,” Surgical Innovation, vol. 13, no. 2, pp. 86–93, 2006.
  4. [4] V. Vitiello, S.-L. Lee, T. P. Cundy, and G.-Z. Yang, “Emerging robotic platforms for minimally invasive surgery,” IEEE Rev. Biomed. Eng., vol. 6, pp. 111–126, 2013.
  5. [5] C. Bergeles and G.-Z. Yang, “From passive tool holders to microsurgeons: Safer, smaller, smarter surgical robots,” IEEE Trans. Biomed. Eng., vol. 61, no. 5, pp. 1565–1576, May 2014.
  6. [6] Xu, Wenjun, et al, “Automate surgical tasks for a flexible Serpentine Manipulator via learning actuation space trajectory from demonstration,” 2016 IEEE International Conference on Robotics and Automation (ICRA). IEEE, 2016.
  7. [7] N. Simaan, K. Xu, A. Kapoor, W. Wei, P. Kazanzides, P. Flint, and R. Taylor, “Design and integration of a telerobotic system for minimally invasive surgery of the throat,” Int. J. Robot. Res., vol. 28, no. 9, pp. 1134–1153, 2009.
  8. [8] C. Bergeles, A. Gosline, N. V. Vasilyev, P. J. Codd, P. J. del Nido, and P. E. Dupont, “Design optimization of concentric tube robots based on task and anatomical constraints,” IEEE Trans. Robot., vol. 31, no. 1, pp. 398–403, Feb. 2015.
  9. [9] P. E. Dupont, J. Lock, B. Itkowitz, and E. Butler, “Design and control of concentric-tube robots,” IEEE Trans. Robot., vol. 26, no. 2, pp. 209–225, Apr. 2010.
  10. [10] Chen, Jie, et al, “Towards transferring skills to flexible surgical robots with programming by demonstration and reinforcement learning,” 2016 Eighth International Conference on Advanced Computational Intelligence (ICACI). IEEE, 2016.
  11. [11] Kober, Jens, J. Andrew Bagnell, and Jan Peters, “Reinforcement learning in robotics: A survey,” The International Journal of Robotics Research (2013): 0278364913495721.
  12. [12] Kober, J. and J.R. Peters, “Policy search for motor primitives in robotics,” in Advances inneural information processing systems. 2009.
  13. [13] A. Bajo, L. M. Dharamsi, J. L. Netterville, C. G. Garrett, and N. Simaan, “Robotic-assisted micro-surgery of the throat: The trans-nasal approach,” in Proc. IEEE Int. Conf. Robot. Autom., 2013, pp. 232–238.
  14. [14] R. E. Goldman, A. Bajo, L. S. MacLachlan, R. Pickens, S. D. Herrell, and N. Simaan, “Design and performance evaluation of a minimally invasive telerobotic platform for transurethral surveillance and intervention,” IEEE Trans. Biomed. Eng., vol. 60, no. 4, pp. 918–25, Apr. 2013.
  15. [15] Piltan, Farzin, et al. "On line Tuning Premise and Consequence FIS: Design Fuzzy Adaptive Fuzzy Sliding Mode Controller Based on Lyaponuv Theory." International Journal of Robotics and Automation 2.5 (2011): 381-400.
  16. [16] Antonio, J. K., R. Ramabhadran, and T. L. Ling. "A framework for optimal trajectory planning for automated spray coating." International Journal of Robotics and Automation 12 (1997): 124-134.
  17. [17] Moosavian, S. Ali A., and Khalil Alipour. "On the dynamic tip-over stability of wheeled mobile manipulators." International Journal of Robotics & Automation 22.4 (2007): 322.
  18. [18] Li, Zhijun, et al. "Development of hybrid joints for the compliant arm of human-symbiotic mobile manipulator." International Journal of Robotics and Automation (2005).
  19. [19] Tourajizadeh, Hami, Moharam H. Korayem, and Saeed R. Nekoo. "Sensitivity Analysis of Dynamic Load Carrying Capacity of a Cable-Suspended Robot." International Journal of Robotics and Automation 33.1 (2018).
  20. [20] Banerjee, Hritwick, Zion Tsz Ho Tse, and Hongliang Ren. "Soft Robotics with Compliance and Adaptation for Biomedical Applications and Forthcoming Challenges." International Journal of Robotics and Automation 33.1 (2018).
  21. [21] Hu, Yanan, et al. "Dynamic Modelling of Reconfigurable Robots with Independent Locomotion and Manipulation Ability." International Journal of Robotics and Automation 32.3 (2017).
  22. [22] Cheng, Qiangqiang, et al. "Modelling of soft tissue cutting in virtual surgery simulation: A literature review." Int. J. Rob. Autom 32.3 (2017).
  23. [23] Zhao, Yanzhi, et al. "Kinematics, Dynamics and Control of a Stabilized Platform with A 6-RUS Parallel Mechanism." International Journal of Robotics and Automation 32.3 (2017).

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