Command-based iterative learning control with TCP function for five-axis contouring

2013 IEEE International Conference on Mechatronics and Automation Pub Date : 2013-10-03 DOI:10.1109/ICMA.2013.6618056

Ming-Tzong Lin, Bing-Huan Tsai, Chien-Yi Lee, Shih-Kai Wu, Hung-Ming Lee

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引用次数: 5

Abstract

This paper presents a novel approach for precision machining in five-axis machine tools through the use of five-axis command-based iterative learning control (FCILC). A command-based iterative learning control algorithm with tool center point (TCP) control and interpolation function is developed to improve the tracking and contouring performance of the TCP for the repetitive contoured trajectories. The TCP control function is utilized to generate smooth velocity profiles and interpolation commands where the jerk of each axis is limited by the given constraints. The contour error estimation method for five axes is developed to efficiently compute the contour errors. Applying the FCILC technique to the original control architecture enables reducing tracking error caused by servo lag and friction, and alleviating noise effect during repetitive learning tasks. Finally, contouring experiments are conducted on a five-axis engraving machine to demonstrate that the tracking and contour errors can be enhanced significantly using the proposed FCILC method.

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基于TCP函数的五轴轮廓命令迭代学习控制

提出了一种基于五轴命令的迭代学习控制(FCILC)的五轴机床精密加工新方法。为了提高刀具中心点控制算法对重复轮廓轨迹的跟踪和轮廓化性能，提出了一种具有刀具中心点控制和插值功能的基于命令的迭代学习控制算法。利用TCP控制函数生成平滑的速度剖面和插值命令，其中每个轴的抖动受给定约束条件的限制。为了有效地计算轮廓误差，提出了五轴轮廓误差估计方法。将ffclc技术应用于原有的控制体系结构，可以减小伺服滞后和摩擦引起的跟踪误差，减轻重复学习任务中的噪声影响。最后，在五轴雕刻机上进行了轮廓实验，实验结果表明，该方法可以显著提高跟踪误差和轮廓误差。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2013 IEEE International Conference on Mechatronics and Automation

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