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利用二次优化实现柔性冗余度机器人关节力矩最小化研究 被引量:4

Study on Joint-Torque Minimization for the Flexible Redundant Manipulator via Its Second Optimization Capability
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摘要 对基于振动抑制的柔性冗余度机器人关节力矩的最小化进行了研究。通过分析影响柔性机器人弹性动力响应的因素,得出了在结构参数不变的情况下可以通过适当调整关节运动参数来提高机器人动态性能的结论。在此基础上,通过对柔性冗余度机器人的关节运动进行研究,提出了通过自运动的适当选取从而抑制机器人柔性振动的方法。通过对满足抑振要求的自运动的选取进行分析,指出柔性冗余度机器人在实现振动抑制的基础上还具有二次优化的能力,并且利用这种二次优化的能力得出了基于振动抑制的最小化关节力矩的方法。数值仿真验证了该方法的有效性。 Minimizing joint-torques of a flexible redundant manipulator based on vibration suppression is researched. The factors which influence a flexible manipulator's elastic dynamic responses are analyzed and a conclusion is drawn that a flexible manipulator's dynamic performance can be improved by adjusting its joint kinetic parameters properly while its structural parameters remain unchanged. On this basis, by studying a flexible redundant manipulator's joints motion, a method is presented for suppressing vibration of a flexible redundant manipulator by correctly choosing its self-motions. Then how to choose the self-motions which meet the need of suppressing vibration is analyzed, and it is found that a flexible redundant manipulator still has the second optimization capability on the basis of its vibration which has been reduced, A method is proposed for minimizing joint-torques of a flexible redundant manipulator based on vibration suppression by utilizing this second optimization capability. The results of some numerical simulations verify the effectiveness of tiffs proposed method.
作者 边宇枢 高志慧 贠超
机构地区 北京航空航天大学机械工程及自动化学院
出处 《航空学报》 EI CAS CSCD 北大核心 2005年第1期111-115,共5页 Acta Aeronautica et Astronautica Sinica
基金 国家自然科学基金(50075028) 国家863计划(863 2001AA421200)资助项目
关键词 柔性冗余度机器人 关节力矩 振动抑制 自运动 flexible redundant manipulator joint-torque vibration suppression self-motion
分类号 TP242.2 [自动化与计算机技术—检测技术与自动化装置]
  • 相关文献

参考文献7

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二级参考文献8

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共引文献17

同被引文献17

  • 1Benosman M, Vey G L. Control of flexible manipulators: a survey[J]. Robotica, 2004,22(5) :533-545.
  • 2Dwivedy S K, Eberhard P. Dynamic analysis of flexible manipulators, a literature review[J]. Mechanism and Machine Theory, 2006,41(7):749-777.
  • 3Nguyen L A, Walker I D, Defigueiredo R J P. Dynamic control of flexible kinematically redundant robot manipulators [J]. IEEE Transactions on Robotics and Automation, 1992,8(6) :759-767.
  • 4Yue S G. Weak-vibration configurations for flexible robotic manipulators with kinematic redundancy[J]. Mechanism and Machine Theory, 2000,35(2) : 165- 178.
  • 5Xu W L, Yue Shigang. Pre-posed configuration of flexible redundant robot manipulators for impact vibration alleviating[J]. IEEE Transactions on Industrial Electronics, 2004,51 ( 1 ) : 195-200.
  • 6BENOSMAN M, VEY G L. Control of flexible manipulators: a survey [J]. Robotica, 2004, 22 (5): 533-545.
  • 7DWIVEDY S K, EBERHARD P. Dynamic analysis of flexible manipulators, a literature review[J]. Mechanism and Machine Theory, 2006, 41(7): 749-777.
  • 8NGUYEN L A, WALKER I D, DEFIGUEIREDO R J P. Dynamic control of flexible kinematically redundant robot manipulators[J]. IEEE Transactions on Robotics and Automation, 1992, 8(6): 759-767.
  • 9YUE S G, TSO S K, XU W L. Maximum-dynamic-payload trajectory for flexible robot manipulators with kinematic redundancy[J]. Mechanism and Machine Theory, 2001, 36(6): 785-800.
  • 10YUE S G. Weak-vibration configurations for flexible robotic manipulators with kinematic redundancy[J]. Mechanism and Machine Theory, 2000, 35(2): 165-178.

引证文献4

二级引证文献19

航空学报
2005年 第1期

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