Path planning for robots in preform weaving based on learning from demonstration

IF 1.9 4区计算机科学 Q3 ROBOTICS

Robotica Pub Date : 2024-02-01 DOI:10.1017/s0263574724000146

Zhuo Meng, Shuo Li, Yujing Zhang, Yize Sun

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引用次数: 0

Abstract

A collision-free path planning method is proposed based on learning from demonstration (LfD) to address the challenges of cumbersome manual teaching operations caused by complex action of yarn storage, variable mechanism positions, and limited workspace in preform weaving. First, by utilizing extreme learning machines (ELM) to autonomously learn the teaching data of yarn storage, the mapping relationship between the starting and ending points and the teaching path points is constructed to obtain the imitation path with similar storage actions under the starting and ending points of the new task. Second, an improved rapidly expanding random trees (IRRT) method with adaptive direction and step size is proposed to expand path points with high quality. Finally, taking the spatical guidance point of imitation path as the target direction of IRRT, the expansion direction is biased toward the imitation path to obtain a collision-free path that meets the action yarn storage. The results of different yarn storage examples show that the ELM-IRRT method can plan the yarn storage path within 2s–5s when the position of the mechanism changes in narrow spaces, avoiding tedious manual operations that program the robot movements, which is feasible and effective.

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基于示范学习的预成型编织机器人路径规划

针对预成型织造中储纱动作复杂、机构位置多变、工作空间有限等问题，提出了一种基于示范学习（LfD）的无碰撞路径规划方法，以解决人工教学操作繁琐的难题。首先，利用极限学习机（ELM）自主学习储纱教学数据，构建起止点与教学路径点之间的映射关系，得到新任务起止点下储纱动作相似的模仿路径。其次，提出了一种具有自适应方向和步长的改进型快速扩展随机树（IRRT）方法，以高质量地扩展路径点。最后，以模仿路径的空间引导点作为 IRRT 的目标方向，将扩展方向偏向模仿路径，从而获得满足储纱动作的无碰撞路径。不同储纱实例的结果表明，ELM-IRRT 方法能在狭窄空间内机构位置发生变化时，在 2s-5s 内规划储纱路径，避免了编程机器人动作的繁琐人工操作，是可行且有效的方法。

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来源期刊

Robotica 工程技术-机器人学

CiteScore

4.50

自引率

22.20%

发文量

181

审稿时长

9.9 months

期刊介绍： Robotica is a forum for the multidisciplinary subject of robotics and encourages developments, applications and research in this important field of automation and robotics with regard to industry, health, education and economic and social aspects of relevance. Coverage includes activities in hostile environments, applications in the service and manufacturing industries, biological robotics, dynamics and kinematics involved in robot design and uses, on-line robots, robot task planning, rehabilitation robotics, sensory perception, software in the widest sense, particularly in respect of programming languages and links with CAD/CAM systems, telerobotics and various other areas. In addition, interest is focused on various Artificial Intelligence topics of theoretical and practical interest.