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) |
[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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