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双足溜冰机器人样机研制 被引量:1

Study and Development of the Biped Ice-skater Robot with Passive Wheels
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摘要 依据人体轮滑运动基本动作的运动特点,分析双足从动轮式溜冰机器人(BISR)运动原理,研制出具有12个自由度的BISR样机。从模仿人体轮滑运动特点出发,探讨机器人实现"葫芦步"直线滑行的步态规划方法,并设计出机器人的控制系统。BISR样机成功实现"葫芦步"直线滑行,表明机器人样机设计合理,步态规划方法可行,溜冰运动可以成为两足机器人一种新的运动方式。 By analyzing the locomotion of human skating, a biped ice-skater robot of leg-wheeled passive wheel type was presented, which had 12 degrees of freedom and was able to imitate human skating motion. The paper narrated briefly its motion principle after the kinematical model was simpli fied. Also, the construction and control system of BISR were introduced. Meanwhile, the gait plan of the robot was discussed and planed in detail. Lastly,the Validity of this motion principle,the design of prototype and the gait plan of BISR were verified by the actual examples of BISR skating with the symmetric gait. BISR will provide a new type of motion for the biped robot that usually walked.
作者 徐子力 吕恬生 徐振华 宋立博
机构地区 上海交通大学
出处 《中国机械工程》 EI CAS CSCD 北大核心 2007年第16期1921-1924,1929,共5页 China Mechanical Engineering
关键词 双足溜冰机器人 步态设计 运动匹配 控制系统 biped ice-skater robot gait plan kinematics mapping control system
分类号 TP242.1 [自动化与计算机技术—检测技术与自动化装置]
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参考文献7

  • 1Endo G,Hirose S.Study on Roller-Walker:Multi-mode Steering Control and Self-contained Locomotion[C]//Proc.of ICRA'2000.San Francisco:IEEE,2000:2808-2814.
  • 2Kenji H,Takuya H,Yusuke S,et al.Realization by Biped Leg-wheeled Robot of Biped Walking and Wheel-driven Locomotion[C]//Proc.ICRA'2005.Barcelona:IEEE,2005,2970-2975.
  • 3Matsumoto O,Kajita S,Komoriya K.Flexible Locomotion Control of a Self-contained Biped Leg-wheeled System[C]//Proceedings of 2002 IEEE/RSJ International Conference on Intelligent Robots and Systems.Lausanne,Switzerland,2002:2599-2604.
  • 4赵晓军,黄强,彭朝琴,张利格,李科杰.基于人体运动的仿人型机器人动作的运动学匹配[J].机器人,2005,27(4):358-361. 被引量:34
  • 5Marcia R,Ales U,Keegan W,et al.Enabling Real-time Full-Body Imitation:a Natural Way of Transferring Human Movement to Humanoids[C]//Proc.of ICRA'2003.Taipei:IEEE,2003:2368-2374.
  • 6徐子力,吕恬生,王乐天.人体“葫芦步”直线轮滑步态的实验研究[J].机械设计与研究,2005,21(4):77-80. 被引量:3
  • 7伍科布拉托维奇 马培荪 沈乃熏.步行机器人和动力型假肢[M].北京:科学出版社,1983..

二级参考文献15

  • 1Vukobratovic M, Juricic D. Contribution to the synthesis of biped gait[J]. IEEE Transactions on Biomedical Engineering. 1969, BME -16 (1): 1-6.
  • 2Gubina F, Hemami H, McGhee R B. On the dynamic stability of biped locomotion[J]. IEEE Transactions on Biomedical Engineering,1974, BME-21(2): 102-108.
  • 3Takanishi A, Toshizawa M, et al. Dynamic biped walking stabilized with optimal trunk and waist motion[ A]. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems[ C ].Tsukuba, Japan: IEEE, 1989. 187 - 192.
  • 4Hiraik K, Hirose M. The development of Honda humanoid robot[A]. Proceedings of the IEEE International Conference on Robotics and Automation[ C]. Lcuven, Belgium: IEEE, 1998. 1321 - 1326.
  • 5Huang Q, Yokoi K, Kajita S, et al. Planning walking patterns for a biped robot [ J ]. IEEE Transactions on Robotics and Automation,2001, 17(3) :280-289.
  • 6Pollard S, Hodgins J K, Riley M J, et al. Adapting human motion for the control of a humanoid robot [ A ]. Proceedings of the 2002IEEE International Conference on Robotics and Automation [ C ].USA: IEEE, 2002. 1390-1397.
  • 7Yamane K, Nakamura K. Dynamics filter - concept and Implementation of on-line motion generator for human figures[ J]. IEEE Transactions on Robotics and Automation, 2003, 19(3) :421 -432.
  • 8Nakazawa A, Nakaoka S, Ikeuchi K, et al. Imitating human dance motions through motion structure analysis [ A ]. Proceedings of the IEEE/RSJ International Conference on Intelligent Robots and Systems[C]. USA: IEEE, 2002. 2539-2544.
  • 9Nakaoka S, Nakazawa A, Yokoi K, et al. Generating Whole Body Motions for a Biped Humanoid Robot from Captured Human Dance[A]. Proceedings of the IEEE International Conference on Robotics and Automation [C]. USA: IEEE, 2003. 3905 -3910.
  • 10Arkin R, C, Fujita M, Takagi T, et al. Ethological modeling and architecture for an entertainment robot [ A ]. Proc ICRA [ C ].Seoul, Korea: IEEE, 2001,453 ~ 458.

共引文献39

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中国机械工程
2007年 第16期

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