A practical approach to compensate for geometric errors in measuring arms: application to a six-degree-of-freedom kinematic structure

Gatti G; Danieli G

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A practical approach to compensate for geometric errors in measuring arms: application to a six-degree-of-freedom kinematic structure

机译：补偿测量臂中几何误差的实用方法：应用于六自由度运动学结构

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摘要

This paper presents a practical approach to the compensation of geometric errors in measuring arms. The intent of this work is to give a set of useful and ready-to-use indications and computational suggestions to those who are concerned with improving the accuracy of such a system by means of off-line kinematic calibration. The reader is introduced to the main concepts related to the kinematic performances of a measuring arm and guided through the main steps involved in the error compensation process. A basic mathematical formulation is adopted and an iterative linearization of equations, based on a least-squares algorithm, is used for kinematic parameter estimation. The well-known simplicity of the approach and its effectiveness is demonstrated experimentally on a real six-degree-of-freedom measuring arm.

机译：本文提出了一种实用的方法来补偿测量臂中的几何误差。这项工作的目的是为那些关心通过离线运动学校准提高这种系统的准确性的人们提供一套有用的和随时可用的指示和计算建议。向读者介绍了与测量臂运动学性能有关的主要概念，并指导了误差补偿过程中涉及的主要步骤。采用基本数学公式，并且基于最小二乘算法的方程式迭代线性化用于运动学参数估计。在一个真正的六自由度测量臂上，通过实验证明了该方法众所周知的简便性及其有效性。

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来源
《Measurement Science & Technology 》 |2008年第1期| 共12页
作者
Gatti G; Danieli G;
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正文语种 eng
中图分类仪器、仪表 ;
关键词
kinematic calibration; error compensation; measuring arm; resolution; repeatability; accuracy; ROBOT CALIBRATION; INDUSTRIAL MANIPULATORS; MEASUREMENT SYSTEM; MODEL; IDENTIFICATION; CAMERA;

机译：运动学标定;误差补偿;测量臂;分辨率;重复性;精度;机器人标定;工业机械手;测量系统;模型;识别;照相机;

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1. A practical approach to compensate for geometric errors in measuring arms: application to a six-degree-of-freedom kinematic structure [J] . G Gatti, G Danieli Measurement Science & Technology . 2008 ,第1期

机译：补偿测量臂中几何误差的实用方法：应用于六自由度运动学结构
2. A practical approach to compensate for geometric errors in measuring arms: application to a six-degree-of-freedom kinematic structure [J] . Gatti G, Danieli G Measurement Science & Technology . 2008 ,第1期

机译：补偿测量臂中几何误差的实用方法：应用于六自由度运动学结构
3. Calibration of Kinematic Parameters of Robot Arm Using Laser Tracking System: Compensation for Non-Geometric Errors by Neural Networks and Selection of Optimal Measuring Points by Genetic Algorithm [J] . Seiji Aoyagi, Masato Suzuki, Tomokazu Takahashi, International journal of automation technology . 2012 ,第1期

机译：使用激光跟踪系统的机械臂运动学参数校准：通过神经网络补偿非几何误差，并通过遗传算法选择最佳测量点
4. Method of On-machine Spacing-tooth Measuring Large Gear Pitch Accumulated Errors and Technology of Compensating a Geometric Eccentric [C] . WenLong Li, LI Wei, Min Li International Conference on Advanced Materials and its Application . 2012

机译：机上间距测量大型齿轮间距的方法累积误差和补偿几何偏心的技术
5. Compensation of relevant and compensable volumetric errors for five-axis machine tools based on differential kinematics [D] . Givi, Mehrdad. 2015

机译：基于微分运动学的五轴机床相关且可补偿的体积误差补偿
6. Design of a Measurement System for Simultaneously Measuring Six-Degree-Of-Freedom Geometric Errors of a Long Linear Stage [O] . Chien-Sheng Liu, Yu-Fan Pu, Yu-Ta Chen, 2018

机译：同时测量长线性平台的六自由度几何误差的测量系统设计
7. Design of a Measurement System for Six-Degree-of-Freedom Geometric Errors of a Linear Guide of a Machine Tool [O] . Chien-Sheng Liu, Jia-Jun Lai, Yong-Tai Luo 2018

机译：用于机床线性引导的六维自由度几何误差测量系统的设计
8. Harmonic Analysis, Differential Equations, Calculus of Variations with Application to Stability of Complex Geometric Structures. [R] . Stein, E. M. 1971

机译：谐波分析，微分方程，变分微积分及其在复杂几何结构稳定性中的应用。

A practical approach to compensate for geometric errors in measuring arms: application to a six-degree-of-freedom kinematic structure

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