基于高精度轨迹学习方法的机器人技能学习的改进动态运动基元

IF 2.2 4区计算机科学 Q2 ENGINEERING, MECHANICAL

Journal of Mechanisms and Robotics-Transactions of the Asme Pub Date : 2023-07-18 DOI:10.1115/1.4062985

Bin Zhai, Enzheng Zhang, Bingchen Li, Xiujun Fang

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引用次数: 0

摘要

轨迹学习是机器人技能学习的重要组成部分，为了提高轨迹再现精度，提出了一种基于改进动态运动基元的轨迹学习方法。在该方法中，采用截断处理来改进DMPs的高斯核函数，以消除尾部指数衰减对拟合目标强迫项的影响，并对形状参数的数量进行优化，使模型更好地近似目标强迫项局部梯度。详细介绍了提高弹道精度的原理。进行了轨迹再现仿真，验证了该方法的可行性。构建了机器人技能轨迹学习的实验装置，并进行了相关的对比实验，验证了该方法在提高轨迹学习精度方面的有效性。

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High Precision Trajectory Learning Method based Improved Dynamic Movement Primitives for Robot Skill Learning

Trajectory learning is an important part of robot skill learning, and a trajectory learning method based on improved Dynamic Movement Primitives (DMPs) is proposed to improve trajectory reproduction accuracy. In this method, the truncation processing is used to improve the Gaussian kernel function of DMPs to eliminate the impact of tail exponential decay on fitted target forcing term, and the optimization on the number of shape parameters is used to make the model better approximate the local gradient of the target forcing term. The principle of trajectory accuracy improvement is described in detail. The trajectory reproduction simulation is performed, which verifies the feasibility of the proposed method. An experimental setup for robot skill trajectory learning is constructed and the relevant comparison experiments are performed, which verifies the effectiveness of the proposed method in improving trajectory learning accuracy.

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来源期刊

Journal of Mechanisms and Robotics-Transactions of the Asme ENGINEERING, MECHANICAL-ROBOTICS

CiteScore

5.60

自引率

15.40%

发文量

131

审稿时长

4.5 months

期刊介绍： Fundamental theory, algorithms, design, manufacture, and experimental validation for mechanisms and robots; Theoretical and applied kinematics; Mechanism synthesis and design; Analysis and design of robot manipulators, hands and legs, soft robotics, compliant mechanisms, origami and folded robots, printed robots, and haptic devices; Novel fabrication; Actuation and control techniques for mechanisms and robotics; Bio-inspired approaches to mechanism and robot design; Mechanics and design of micro- and nano-scale devices.