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Kinematics of a Trinal-Branch Space Robotic Manipulator with Redundancy 被引量:1

具有冗余度的三分支空间机器人的运动学分析(英文)
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摘要 This paper presents a trinal-branch space robotic manipulator with redundancy, due to hash application environments, such as in the station. One end-effector of the manipulator can be attached to the base, and other two be controlled to accomplish tasks. The manipulator permits operation of science payload, during periods when astronauts may not be present. In order to provide theoretic basis for kinematics optimization, dynamics optimization and fault-tolerant control, its inverse kinematics is analyzed by using screw theory, and its unified formulation is established. Base on closed-form resolution of spherical wrist, a simplified inverse kinematics is proposed. Computer simulation results demonstrate the validity of the proposed inverse kinematics. This paper presents a trinal-branch space robotic manipulator with redundancy, due to hash application environments, such as in the station. One end-effector of the manipulator can be attached to the base, and other two be controlled to accomplish tasks. The manipulator permits operation of science payload, during periods when astronauts may not be present. In order to provide theoretic basis for kinematics optimization, dynamics optimization and fault-tolerant control, its inverse kinematics is analyzed by using screw theory, and its unified formulation is established. Base on closed-form resolution of spherical wrist, a simplified inverse kinematics is proposed. Computer simulation results demonstrate the validity of the proposed inverse kinematics.
作者 贾庆轩 叶平 孙汉旭 宋荆洲
机构地区 Institute of Robotic Research Automation School
出处 《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2005年第4期378-384,共7页 中国航空学报(英文版)
基金 "863"Item:NationalHighTechnologyFoundationinAstronautics(2002AA742030)
关键词 space robotic manipulators REDUNDANCY screw theory inverse kinematics space robotic manipulators redundancy screw theory inverse kinematics
分类号 TP242 [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9

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Chinese Journal of Aeronautics
2005年 第4期

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