带有方向动态参数化的机器人示范学习：农业活动中的应用

IF 2.9 Q2 ROBOTICS

Robotics Pub Date : 2023-12-07 DOI:10.3390/robotics12060166

Clemente Lauretti, C. Tamantini, Hilario Tomè, L. Zollo

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引用次数: 0

摘要

这项工作提出了一个基于动态运动原语(dmp)的示范学习框架，该框架可以有效地用于规划机器人中的复杂活动，例如在农业领域进行的活动，并避免运动学习过程中的方向不连续。该方法采用李理论，并将指数映射和对数映射集成到DMP方程中，将李群中的任何元素SO(3)转换为切空间中的元素SO(3)，反之亦然。此外，它还包括一个切空间元素的动态参数化，以管理对数映射的不连续。提出的方法在Tiago机器人上进行了四种农业活动的测试，如挖掘、播种、灌溉和收获。将得到的结果与使用原始dmp公式获得的结果进行了比较，并证明了所提出的方法在管理方向不连续方面的高能力(所有测试姿势的成功率为100%)。

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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Robot Learning by Demonstration with Dynamic Parameterization of the Orientation: An Application to Agricultural Activities

This work proposes a Learning by Demonstration framework based on Dynamic Movement Primitives (DMPs) that could be effectively adopted to plan complex activities in robotics such as the ones to be performed in agricultural domains and avoid orientation discontinuity during motion learning. The approach resorts to Lie theory and integrates into the DMP equations the exponential and logarithmic map, which converts any element of the Lie group SO(3) into an element of the tangent space so(3) and vice versa. Moreover, it includes a dynamic parameterization for the tangent space elements to manage the discontinuity of the logarithmic map. The proposed approach was tested on the Tiago robot during the fulfillment of four agricultural activities, such as digging, seeding, irrigation and harvesting. The obtained results were compared to the one achieved by using the original formulation of the DMPs and demonstrated the high capability of the proposed method to manage orientation discontinuity (the success rate was 100 % for all the tested poses).

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来源期刊

Robotics Mathematics-Control and Optimization

CiteScore

6.70

自引率

8.10%

发文量

114

审稿时长

11 weeks

期刊介绍： Robotics publishes original papers, technical reports, case studies, review papers and tutorials in all the aspects of robotics. Special Issues devoted to important topics in advanced robotics will be published from time to time. It particularly welcomes those emerging methodologies and techniques which bridge theoretical studies and applications and have significant potential for real-world applications. It provides a forum for information exchange between professionals, academicians and engineers who are working in the area of robotics, helping them to disseminate research findings and to learn from each other’s work. Suitable topics include, but are not limited to: -intelligent robotics, mechatronics, and biomimetics -novel and biologically-inspired robotics -modelling, identification and control of robotic systems -biomedical, rehabilitation and surgical robotics -exoskeletons, prosthetics and artificial organs -AI, neural networks and fuzzy logic in robotics -multimodality human-machine interaction -wireless sensor networks for robot navigation -multi-sensor data fusion and SLAM