Research on Inverse Kinematics of Robot Based on Motion Controller

机译：基于运动控制器的机器人逆运动学研究

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摘要

Based on kinematics principle, combined with trigonometric function and geometry, an inverse kinematics analysis algorithm for two-degree-of-freedom (SCARA) robot structure is derived, which is tested and verified by PMAC multi-axis motion controller. The test results show that the analytical algorithm can effectively realize the inverse kinematics solution of the robot mechanism, and user can accomplish corresponding trajectory motion by programming the robot end actuator coordinate position. The robot control system based on motion controller proposed in this paper can meet the requirements of robot system openness in robot teaching and scientific research. The analytical process and method of inverse kinematics studied in this paper can be flexibly extended to the motion control of other kinds of robots.

机译：基于运动学原理，结合三角函数和几何学，推导了两自由度机器人结构的逆运动学分析算法，并通过PMAC多轴运动控制器进行了测试和验证。测试结果表明，该解析算法可以有效地实现机器人机构的运动学逆解，用户可以通过对机器人末端执行器坐标位置进行编程来完成相应的轨迹运动。本文提出的基于运动控制器的机器人控制系统可以满足机器人教学和科研中机器人系统开放性的要求。本文研究的逆运动学的分析过程和方法可以灵活地扩展到其他类型机器人的运动控制。

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《IEEE International Conference of Intelligent Robotic and Control Engineering》|2018年|34-37|共4页
会议地点 Lanzhou(CN)
作者
Wang Fuping; Zhao Zhengjun;
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作者单位

Innovation and Entrepreneurship College North Minzu University Yinchuan China;

College of Computer Science Engineering North Minzu University Yinchuan China;

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关键词
Robot kinematics; Kinematics; Service robots; Trajectory; Servomotors; Manipulators;

机译：机器人运动学；运动学服务机器人；弹道;伺服电机机械手;

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专利

1. The kinematic roadmap: a motion planning based global approach for inverse kinematics of redundant robots [J] . Ahuactzin J.M., Gupta K.K. IEEE Transactions on Robotics and Automation . 1999,第4期

机译：运动学路线图：基于运动规划的冗余机器人逆运动学全局方法
2. A method to learn the inverse kinematics of multi-link robots by evolving neuro-controllers [J] . Jose Antonio Martin H., Javier de Lope, Matilde Santos Neurocomputing . 2009,第13a15期

机译：通过进化神经控制器学习多链接机器人逆运动学的方法
3. A Position-Level Global Optimization Inverse Kinematic Solution Algorithm for Dual Redundant Robots Based on Motion Characteristics [J] . He Jingjie Mathematical Problems in Engineering . 2018,第PTa3期

机译：基于运动特性的双冗余机器人位置级全局最优逆运动学求解算法
4. Research on Inverse Kinematics of Robot Based on Motion Controller [C] . Wang Fuping, Zhao Zhengjun IEEE International Conference of Intelligent Robotic and Control Engineering . 2018

机译：基于运动控制器的机器人逆运动学研究
5. Development of a CAD/CAE tool---ROBOKINE (ROBOtic KINEmatics)---for workspace, inverse kinematics and trajectory planning. [D] . Narasimhan, Mukund Venkatachari. 2002

机译：开发CAD / CAE工具-ROBOKINE（ROBOTIC KINEmatics）-用于工作空间，逆运动学和轨迹规划。
6. The optimized algorithm based on machine learning for inverse kinematics of two painting robots with non-spherical wrist [O] . Xiaoqi Wang, Jianfu Cao, Lerui Chen, 2020

机译：基于机器学习的逆运动学与非球形手腕的逆运动学优化算法
7. A Motion Planning Based Approach for Inverse Kinematics of Redundant Robots: The Kinematic Roadmap [O] . Juan Manuel Ahuactzin, Kamal Gupta 1997

机译：基于运动计划的冗余机器人逆运动学方法：运动学路线图
8. Inverse kinematic-based robot control [R] . Wolovich, W. A., Flueckiger, K. F. 1987

机译：基于逆运动学的机器人控制

Research on Inverse Kinematics of Robot Based on Motion Controller

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