Robot Manipulation Skill Learning Based on Dynamic Movement Primitive*

IF 1.5 Q3 AUTOMATION & CONTROL SYSTEMS IET Cybersystems and Robotics Pub Date : 2022-07-27 DOI:10.1109/CYBER55403.2022.9907262

Yunfeng Bai, Fengming Li, Man Zhao, Wei Wang, Yibin Li, R. Song

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Abstract

This paper proposes a robot automatic valve turning control strategy based on teaching learning, which consists of teaching, model learning and task repetition. The first stage is the teaching and learning stage. The robot learns motor skills by observing the human performing tasks. In order to accurately learn motor skills from demonstrations, data alignment is performed on the teaching data through Dynamic Time Warping (DTW). The second stage is the model construction and learning stage. The high-level learning strategy aims to learn motor skills from demonstrations through Dynamic Movement Primitives (DMP), using the statistical approach Gaussian Mixture Model and Gaussian Mixture Regression (GMM-GMR) to analyze the data from demonstrations. And the valve turning is repetition. To verify the effectiveness of the proposed control strategy, the experiment of the butterfly valve closing is performed. The results show that the robot is able to learn and reproduce the valve reaching and turning tasks. It completes the valve closing action by turning the valve for 7 turns.

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基于动态运动原语的机器人操作技能学习

本文提出了一种基于教与学的机器人自动转阀控制策略，该策略由教学、模型学习和任务重复组成。第一阶段是教与学阶段。机器人通过观察人类执行任务来学习运动技能。为了从演示中准确地学习运动技能，通过动态时间翘曲(Dynamic Time Warping, DTW)对教学数据进行数据对齐。第二阶段是模式建构和学习阶段。高阶学习策略旨在通过动态运动原语(Dynamic Movement Primitives, DMP)从演示中学习运动技能，使用统计方法高斯混合模型和高斯混合回归(Gaussian Mixture Model, GMM-GMR)对演示数据进行分析。阀门转动是重复的。为了验证所提控制策略的有效性，进行了蝶阀关闭实验。结果表明，该机器人能够学习和再现阀门到达和转向任务。通过转动阀门7圈完成阀门关闭动作。

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