Yun Chao, Tang Can. Topological structure optimization of medical hybrid robot based on dexterity[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(7): 857-860. (in Chinese)
Citation: Yun Chao, Tang Can. Topological structure optimization of medical hybrid robot based on dexterity[J]. Journal of Beijing University of Aeronautics and Astronautics, 2008, 34(7): 857-860. (in Chinese)

Topological structure optimization of medical hybrid robot based on dexterity

  • Received Date: 04 Jul 2007
  • Publish Date: 31 Jul 2008
  • The current methods for dexterity analysis of medical robot were summarized. With numerical approach based on service sphere, dexterity calculation for 5R serial robot and for 4H parallel robot was implemented, and each task dexterity was obtained. Because of kinematics-complexity of hybrid redundant 9-DOF robot, and also because of being difficult to gain analytic solution of inverse kinematics, the displacement manifold for serial robot and displacement manifold for parallel robot were provided. At the same time, the displacement manifold for hybrid robot was deduced. In terms of above investigation, the dexterity analysis method was put forward, namely method based on Riemann manifold. The general analytic expression of hybrid robot dexterity was defined. On the base of area calculation for circumscribed ellipsoid surface of Riemann surface, a conclusion that hybrid robot dexterity is much greater than the dexterity needed for CT-guided surgery was drew. A novel idea for analysis and measurement of dexterity which is an important performance for hybrid robot in minimally invasive surgery was provided.

     

  • [1] 王洪武,段蕴铀,张燕群,等. CT引导下经皮穿刺氩氦靶向治疗肺癌的临床应用[J].海军总医院学报,2004,17(1):8-15 Wang Hongwu, Duan Yunyou, Zhang Yanqun, et al. Percutaneous lung cancer cryotherapy guided by computer tomography[J]. The Transaction of Naval General Hospital,2004,17(1):8-15(in Chinese) [2] 黄田,汪劲松.Stewart并联机器人局部灵活度与其各向同性条件解析[J].机械工程学报,1999,35(5):41-45 Huang Tian,Wang Jinsong. Closed form solution to the local dexterity and isotropy of Stewart parallet manipulators[J]. Chinese Journal of Mechanical Engineering,1999,35(5):41-45(in Chinese) [3] Sakakibara Y. Foot trajectory for a quadruped walking machine IEEE International workshop on Intelligent Robots and Systems. Ibaraki:IEEE,1990:315-322 [4] 徐礼钜,高翔.冗余自由度变几何桁架机器人的轨迹规划[J].四川联合大学学报(工程科学版),1999,3(5):129-133 Xu Liju, Gao Xiang. The path planning of variable geometry truss manipulators with redundant degree of freedom[J]. Journal of Sichuan Union University (Engineering Science Edition),1999,3(5):129-133(in Chinese) [5] 陆启韶.现代数学基础[M].北京:北京航空航天大学出版社,2001:168-171 Lu Qishao. Modern math foundation[M].Beijing:Beijng University of Aeronautics and Astronautics Press, 2001:168-171(in Chinese) [6] 刘巍,张玉茹.脑外科机器人灵活度分析和设计[J].机械设计和研究,2006,22(4):39-45 Liu Wei, Zhang Yuru. Dexterity analysis and design of robot for neurosurgery[J]. Machine Design and Research,2006,22(4):39-45(in Chinese) [7] Trejos A L,Patel R V. Port placement for endoscopic cardiac surgery based on robot dexterity optimization IEEE International Conference on Robotics and Automation. Barcelona:IEEE,2005:912-917 [8] 丛爽,马翔,张耀新. LMI在并联机构的奇异性、灵巧度及刚度分析与设计中的应用[J].机械设计,2005,22(12):10-18 Cong Shuang, Ma Xiang, Zhang Yaoxin. Application of LMI in the analysis and design of singularity, dexterity and rigidity of parallel mechanism[J]. Journal of Machine Design,2005,22(12):10-18(in Chinese) [9] Gosselin C, Angeles J. A global performance index for the kinematics optimization of robotic manipulators[J]. ASME Journal of Mechanical Design,1991,113:220-226 [10] Merlet J P. Redundant parallel manipulators [J]. Journal of Laboratory Robotics and Automation,1996,8:17-24 [11] Stamper R E, Tsai L W, Walsh G C. Optimization of a three dof translational platform for well-conditioned workspace Proceedings of IEEE International Conference on Robotics and Automation.Piscataway,NJ:IEEE,1997:3250-3255 [12] 王洪武.现代肿瘤靶向治疗技术[M].北京:中国医药科技出版社, 2005:77-123 Wang Hongwu. Modern targeted therapy technique for tumors[M].Beijing:China Press of Medicine Sci & Tech,2005:77-123 (in Chinese) [13] 李秦川. 对称少自由度并联机器人型综合理论及新机型综合 .秦皇岛:燕山大学机械工程学院,2003 Li Qinchuan.Type synthesis theory of lower-mobility parallel mechanisms and synthesis of new architectures .Qinhuangdao:School of Mechanical Engineering,Yanshan University,2003(in Chinese) [14] 沈辉.并联机器人的几何分析理论和控制方法研究 .长沙:国防科学技术大学控制科学与工程系,2003 Shen Hui.Geometric analysis theory and control methods for parallel robots . Changsha:Department of Control Science and Engineering,National University of Defense and Technology, 2003(in Chinese)
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