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基于Lagrange方法的航天员舱外活动计算机仿真 被引量:3

Based on lagrangian method computational simulation of extra vehicular activity
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摘要 在比较各种地面微重力模拟设备的优缺点的基础上 ,阐述了计算机动态仿真航天员舱外活动 ( EVA ,Extra Vehicular Activity)的必要性。简要的概述了应用计算多刚体系统动力学对 EVA进行仿真的步骤。描述了拉格朗日方程在仿真过程中的应用 ,建立了用于仿真的动力学方程。选取典型的 EVA,得出了描述该 EVA系统运动的拉格朗日动力学方程。利用反向运动学和反向动力学对该 EVA进行了仿真计算 ,并对结果进行了分析。 Based on introduction of several ground simulators to the weightless environment,it was depicted that the computational dynamic simulation of the extravehicular activity (EVA) is necessary.The steps to simulate EVA utilizing multi body dynamics were introduced.The application of Lagrange formulation in the simulation was described.The dynamics equations for simulating the astronaut and EVA were established.A typical EVA,an actual large mass handling EVA performed on STS 63,was chosen as the example to simulate.The dynamics equations of astronaut arm were developed on the basis of Lagrange formulation.In terms of the inverse kinematics and inverse dynamics,equations were solved and the results were analyzed.
作者 杨锋 袁修干
机构地区 北京航空航天大学
出处 《宇航学报》 EI CAS CSCD 北大核心 2003年第4期337-340,363,共5页 Journal of Astronautics
基金 国家863项目 (863 -2 -2 -2 -6)支持
关键词 航天员 舱外活动 仿真 拉格朗日方程 Astronaut Extravehicular activity Simulation Lagrange formulation
分类号 V527 [航空宇航科学与技术—人机与环境工程]
  • 相关文献

参考文献8

  • 1杨锋,袁修干,李银霞.航天员舱外活动计算机动态仿真[J].系统仿真学报,2003,15(2):216-218. 被引量:8
  • 2杨锋,袁修干.舱外航天服动力学模型[J].航天医学与医学工程,2002,15(6):453-454. 被引量:6
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二级参考文献1

共引文献11

同被引文献24

  • 1杨锋,李银霞,高峰,袁修干.基于力矩比优化的航天员舱外活动仿真[J].航空学报,2004,25(5):433-437. 被引量:4
  • 2王宪民,赵拥军,孙天成,黄勇.失重条件下人体动力学方程及开门动作分析[J].航天医学与医学工程,1997,10(3):187-191. 被引量:3
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  • 6Goldstein S E,Alvarado U R.A Method for Obtaining High Fidelity Underwater Simulation of Manned Space Activities[C]// AIAA 67-0925 AIAA 4th Annual Meeting and Technical Display,Anaheim,California,1967.
  • 7McLain T W.Modelling of underwater manipulator hydrodynamics with application to the coordinated control of an arm/vehicle system[D].Department of Mechanical Engineering,Stanford University,1996.
  • 8Leabourne K N.Two-Link Hydrodynamic Model Development and Motion Planning for Underwater Manipulation[D].Department of Aeronautics and Astronautics,Stanford University,2001. [12]李旭鸿.水下模拟失重及影响因素的分析[D].北京师范大学体育与运动学院,2005.
  • 9Stephen J Hoffman. Advanced EVA capabilities: A study for NASA's revolutionary aerospace systems concept Program [R]. USA: Science Applications International Corporation, 2004.
  • 10Newman D J, Schaffner Gt Computational dynamic analysis of extravehicular activity (EVA): large mass handling. [J]. Journal of Spacecraft and Rockets (S0022-4650), 1998, 35(2): 225-227.

引证文献3

二级引证文献18

宇航学报
2003年 第4期

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