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约束条件下的巡线机器人逆运动学求解 被引量:8

Analysis of solution to the inverse kinematics of inspection robot for power transmission lines with constraints
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摘要 高压输电线路巡检机器人是一种多关节悬挂运动机构,要实现其运动控制就需要根据机器人的本身机构特点和悬挂系统的运动约束条件进行运动学分析.本文利用微分扭转法对巡线机器人的正向运动学进行了求解,并通过对机器人悬挂系统的力学分析,得到了机器人运动学的约束条件,并在这种约束条件下,采用了一种可用来进行实时控制的迭代循环坐标下降(CCD)算法,来进行机器人的逆运动学求解.这种迭代算法对于有运动约束系统的逆运动学求解具有较强的适用性,而且它具有较好的收敛性和有效性,适合于在线计算,便于巡线机器人的实时运动控制. The inspection robot of high-voltage power transmission lines is a mechanical system of multiple-joint suspending mechanism. In order to control the motion of the robot, kinematics analysis should be done on the basis of mechanical characters of the robot and the constraints for the suspending system. For the inspection robot of power transmission lines, the kinematics formulations are deduced by using the twist analysis method. Based on the mechanical analysis of the inspection robot of power transmission lines, the constraints of robot kinematics are obtained. A cyclic- coordinate descent (CCD) iterative algorithm is used to solve the inverse kinematics of the inspection robot with constraints. The recursion algorithm is compatible for inverse kinematics of systems with constraints. Furthermore, it is well convergent and efficient for calculation. This algorithm is compatible with on-line computation and advantageous to the dynamic control of inspection robot.
作者 李恩 梁自泽 谭民
机构地区 中国科学院自动化研究所复杂系统与智能科学实验室
出处 《控制理论与应用》 EI CAS CSCD 北大核心 2006年第1期43-48,共6页 Control Theory & Applications
基金 国家863计划资助项目(2002AA420110-4)
关键词 巡线机器人 逆运动学求解 约束条件 悬挂系统 CCD算法 inspection robot for power transmission lines inverse kinematics constraints suspending system CCD algorithm
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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控制理论与应用
2006年 第1期

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