A knowledge transfer method for human-robot collaborative disassembly of end-of-life power batteries based on augmented reality

AI EDAM Pub Date : 2024-09-13 DOI:10.1017/s0890060424000088
Jie Li, Liangliang Duan, Weibin Qu, Hangbin Zheng
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Abstract

The disassembly of power batteries poses significant challenges due to their complex sources, diverse types, variations in design and manufacturing processes, and diverse service conditions. Human memory capacity and robot cognitive and understanding capabilities are limited when faced with different dismantling tasks for end-of-life power batteries. Insufficient human-computer interaction capabilities greatly hinder the efficiency of human-robot collaboration (HRC) operations. The existing HRC relies heavily on the experience of operators, while the existing disassembly system fails to update new disassembly strategies in real time when facing new battery varieties. Therefore, this paper proposes an augmented reality-assisted human-robot collaboration (AR-HRC) power battery dismantling system based on transfer learning. It consists of three modules: AR-HRC knowledge modeling, dismantling subgraph similarity assessment, and strategy transfer update. The AR-HRC knowledge modeling module aims to establish an intelligent mapping from tasks to collaborative strategies based on part features. Based on the evaluation of task similarity, the mobility assessment model divides subtasks into similar and dissimilar classes. For similar subtasks, the original dismantling strategy can be applied to the current task. However, for different subtasks, operators can issue instructions to the AR-HRC system through the human-computer interaction function of AR and develop new collaborative strategies based on actual conditions. Finally, a case study of power battery dismantling is conducted, and the results show that compared to traditional pre-programmed assembly, this system can improve dismantling efficiency and reduce cognitive burden.

基于增强现实技术的报废动力电池人机协作拆卸知识转移方法
由于动力电池来源复杂、类型多样、设计和制造工艺各异以及使用条件各异,因此拆卸动力电池是一项重大挑战。面对不同的报废动力电池拆解任务,人类的记忆能力和机器人的认知和理解能力都很有限。人机交互能力不足极大地阻碍了人机协作(HRC)操作的效率。现有的人机协作主要依赖于操作人员的经验,而现有的拆解系统在面对新的电池品种时无法实时更新新的拆解策略。因此,本文提出了一种基于迁移学习的增强现实辅助人机协作(AR-HRC)动力电池拆卸系统。该系统由三个模块组成:AR-HRC 知识建模、拆解子图相似性评估和策略迁移更新三个模块。AR-HRC 知识建模模块旨在根据零件特征建立从任务到协作策略的智能映射。基于任务相似性评估,流动性评估模型将子任务分为相似和不相似两类。对于相似的子任务,可将原有的拆卸策略应用于当前任务。但对于不同的子任务,操作人员可以通过 AR 的人机交互功能向 AR-HRC 系统发出指令,并根据实际情况制定新的协作策略。最后,对动力电池的拆卸进行了案例研究,结果表明,与传统的预编程装配相比,该系统可以提高拆卸效率,减轻认知负担。
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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