| [1] Huang Q T, Jiang H Z, Zhang S Y, et al. Spacecraft docking simulation using HIL simulator with Stewart platform[J]. Journal of Chinese Mechanical Engineering, 2005, 18(3): 415-418.[2] Diddens D, Reynaerts D, van Brussel H. Design of a ring-shaped three-axis micro force/torque sensor[J]. Sensor and Actuators A: Physical, 1995, 46(1): 225-232.[3] Kerr D R. Analysis, properties and design of a Stewart-platform transducer[J]. Journal of Mechanisms, Transmissions, Automation in Design, 1989, 111(1): 25-28.[4] Nguyen C C, Antrazi S S, Zhou Z L, et al. Analysis and experimentation of a Stewart platform-based force/torque sensor[J]. International Journal of Robotics and Automation, 1992, 7(3): 133-140.[5] Ferraresi C, Pastorelli S, Sorb M, et al. Static and dynamic behavior of a high stiffness Stewart platform-based force/torque sensor[J]. Journal of Robotic Systems, 1995, 12(12): 883-893.[6] Dwarakanath T A, Dasgupta B, Mruthyunjaya T S. Design and development of a Stewart platform based force/torque sensor [J]. Mechatronics, 2001, 11(7): 793-809.[7] Kang C G. Closed-form force sensing of a 6-axis force transducer based on the Stewart platform[J]. Sensors and Actuators A: Physical, 2001, 90(1):31-37.[8] 高峰,王洪瑞,金振林. 一种具有弹性铰链的六维力与力矩传感器:中国,99102421.4. 1999-09-29. Gao Feng, Wang Hongrui, Jin Zhenlin. A six-axis force/torque sensor with elastic joints: China, 99102421.4. 1999-09-29. (in Chinese)[9] 赵永生. 整体预紧平台式六维力传感器:中国,99102526.1. 2000-08-16. Zhao Yongsheng. Pre-stressed platform-based six-axis force sensor:China, 99102526.1. 2000-08-16. (in Chinese)[10] 张晓辉, 高峰.Stewart结构六维力/力矩传感器力矩各向同性研究[J]. 计量学报, 2005, 26(1): 30-33. Zhang Xiaohui, Gao Feng. Study of torque isotropy of six-dimensional force sensor based on Stewart structure[J]. Acta Metrologica Sinica, 2005, 26(1): 30-33. (in Chinese)[11] Uchiyama M, Nakamura Y, Hakomori K. Evaluation of the robot force sensor structure using singular value decomposition [J]. Journal of the Robotics Society of Japan, 1987, 5(1): 4-10.[12] Wang H R, Gao F, Huang Z. Design of 6-axis force/torque sensor based on Stewart platform related to isotropy [J]. Chinese Journal of Mechanical Engineering, 1998, 11(3): 217-222.[13] Jin Z L, Gao F. Optimal design of a 6-axis force transducer based on Stewart platform related to sensitivity isotropy [J]. Chinese Journal of Mechanical Engineering, 2003, 16(2): 146-148.[14] 赵现朝. Stewart 结构六维力传感器设计理论与应用研究. 秦皇岛:燕山大学机械工程学院,2002. Zhao Xianchao. Design theory and application of the 6-axis F/T sensors based on Stewart platform structure. Qinhuangdao: School of Mechanical Engineering, Yanshan University, 2002. (in Chinese)[15] 赵克定, 杨灏泉, 吴盛林, 等. 基于Stewart 平台的六维力/力矩传感器各向同性的解析研究[J]. 航空学报, 2002, 23(3): 241-244. Zhao Keding, Yang Haoquan, Wu Shenglin, et al. Analysis of isotropy for the six-axis force/torque based on Stewart platform[J]. Acta Aeronautica et Astronautica Sinica, 2002, 23(3): 241-244. (in Chinese)[16] Bandyopadhyay S, Ghosal A. An algebraic formulation of static isotropy and design of statically isotropic 6-6 Stewart platform manipulators[J]. Mechanism and Machine Theory, 2009, 44(7): 1360-1370.[17] 姚建涛, 侯雨雷, 毛海峡, 等. Stewart 结构六维力传感器各向同性的解析分析与优化设计[J]. 机械工程学报, 2009, 45(12): 22-28. Yao Jiantao, Hou Yulei, Mao Haixia, et al. Analytic analysis and optimal design of isotropy performance of six-dimensional force sensor based on Stewart platform[J]. Journal of Mechanical Engineering, 2009, 45(12): 22-28. (in Chinese)[18] Yao J T, Hou Y L, Wang H, et al. Isotropic design of Stewart platform-based force sensor//Intelligent Robotics and Applications, Lecture Notes in Computer Science. Berlin Heidelberg: Springer, 2008, 5315: 723-732.[19] Jiang H Z, Tong Z Z, He J F. Dynamic isotropy design of a class of Gough-Stewart parallel manipulators lying on a circular hyperboloid of one sheet[J]. Mechanism and Machine Theory, 2011, 46(3): 358-374.[20] Jiang H Z, He J F, Tong Z Z. Characteristics analysis of joint space inverse mass matrix for the optimal design of a 6-DOF parallel manipulator[J]. Mechanism and Machine Theory, 2010, 45(5): 710-729.[21] Jafari F, McInroy J E. Orthogonal Gough-Stewart platforms for micromanipulation[J]. IEEE Transactions on Robotics and Automation, 2003, 19(1): 595-603.[22] Geng Z J, Haynes L S. Six degree-of-freedom active vibration control using the Stewart platforms[J]. IEEE Transactions on Control Systems Technology, 1994, 2(1): 45-53. |