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可变直径轮月球探测车运动学建模与分析 被引量:11

Kinematic modeling and analysis of variable diameter wheeled lunar rover
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摘要 针对月球探测的特殊要求,设计了具有滚动扭转转向特性的四轮直径可变月球探测车.通过对可变直径轮的原理进行分析,推导出车轮等效半径的公式.根据该月球探测车的结构特点,以闭链坐标变换和瞬时重合坐标法为基本工具,推导了四轮可变直径轮月球车基于三维地形环境的正、逆运动学模型,分析了相关的运动学特征,提出了运动学逆解的理论解法和实用解法.实用解法有效地降低了计算量.并提出了用车轮等效半径调整探测车辆俯仰角度的方法,提高了月球车的稳定性和通过性能.该研究结果为四轮月球探测车的结构分析与运动控制提供了有力的基础. According to the lunar surface environmental characteristics, a new four variable diameter wheeled lunar rover which consists of a rolling-torsion all wheel steering mechanism was developed. Through the principle analysis of the variable diameter wheel, derived the wheel equivalent radius formula. The calculation formulae based on 3-D environment of positive and inverse kinematics were derived with the method of closed chains coordinates transformation and instantaneous coordinate coincidence founded on the structural characteristic. The kinematic features were analyzed. The theoretical solution and practical solution were deduced. This practical solution can reduce the calculation load. A simplification method of adjusting the pitch angle with the charge of the equivalent radius was suggested. This method can improve the mobility and stability. The results provide the theoretical foundation for structural analysis and motion control of the four-wheeled lunar rover.
作者 崔莹 高峰
机构地区 北京航空航天大学汽车工程系
出处 《北京航空航天大学学报》 EI CAS CSCD 北大核心 2008年第3期348-352,共5页 Journal of Beijing University of Aeronautics and Astronautics
关键词 月球探测车 可变直径轮 运动学建模 姿态调整 lunar rover variable-diameter wheel kinematics modeling attitude adjustment
分类号 TP242 [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5

  • 1高峰,崔莹.智能可变直径半步行轮:中国,ZL200510077266.7[P].2007-10-17
  • 2Rajagopalan R. A generic kinematic formulation for wheeled mobile robots[J]. Journal of Robotic Syst, 1997, 14(2) :77 -91
  • 3Muir P F, Neuman C P. Kinematic modeling of wheeled mobile robots[ J ]. Journal of Robotics Systems, 1987, 4 ( 2 ) : 281 - 340
  • 4Tarokh M, McDermott G, Hayati S, et al. Kinematic modeling of a high mobility mars rover[C]//The 1999 IEEE International Conference on Robotics&Automation. Detroit: [s.n.], 1999: 992 - 998
  • 5王佐伟,梁斌,吴宏鑫.六轮月球探测车运动学建模与分析[J].宇航学报,2003,24(5):456-462. 被引量:17

二级参考文献8

  • 1北京控制工程研究所.月球表面探测机器人方案研究(国防科学技术报告)[R].,2002.3.
  • 2Bickler D. A new family of JPL planetary surface vehicles.Missions ,Technologies,& Design of Planetary Mobile Vehicles ,Toulouse ,France, 1992 : 301-306.
  • 3Muir P F &Neuman C P. Kinematic modeling of wheeled mobile robots. J. of Robotic Syst , 1987,4 (2) : 281-340.
  • 4Alexander J C & Maddocks J H. On the kinematics of wheeled mobile robots. Int. J. of Robotics Research, 1989,8 (5) : 15-27.
  • 5d'Andrea-Novel B,Bastin G,and Campion G. Modelling and control of non-holonomic wheeled mobile robots. Proc. 1991 IEEE Int. Conf. on Robotics & Automation, 1991 : 1130-1135.
  • 6Balakrishna R & Ghosal A. Modeling of slip for wheeled mobile robots. IEEE Trans. on Robotics & Automation, 1995,11(1) : 126-132.
  • 7Rajagopalan R. A generic kinematic formulation for wheeled mobile robots. J. of Robotic Syst , 1997,14 (2) : 77-91.
  • 8Tarokh M, McDermott G, Hayati S and Hung J. Kinematic modeling of a high mobility Mars rover. Proc. 1999 IEEE Int.Conf. on Robotics & Automation, 1999 : 992-998.

共引文献17

同被引文献100

引证文献11

二级引证文献85

北京航空航天大学学报
2008年 第3期

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