Engineering workshop education and supervision: AR for machine operation guidance and safety instructions

Procedia CIRP Pub Date : 2024-01-01 DOI:10.1016/j.procir.2024.03.023

R.G.J. Damgrave, S.L. Knollema, E. Lutters

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Abstract

This research explores the implementation of Augmented Reality (AR) in the mechanical workshop of an engineering education program. The objective is to provide engineering students with an immersive and interactive learning experience, improving their understanding of machine operation while emphasizing safety protocols. This research introduces an AR approach designed to overcome challenges when comprehending the intricate workings of machines and adhering to safety guidelines. By overlaying digital information onto the physical workspace, AR assists students in visualizing machine components, operational procedures, and safety measures, promoting a more effective learning process. In the AR experience, we incorporate sensor data from the workshop environment. This integration enables real-time monitoring of machine performance, environmental conditions, and student activities. Furthermore, the study investigates the potential of AR for workshop supervision. Workshop operators can monitor students’ activities in real-time, ensuring compliance with safety protocols and providing personalised assistance when needed.

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工程车间教育和监督：机器操作指导和安全说明 AR

本研究探讨了在工程教育课程的机械车间实施增强现实技术（AR）的情况。目的是为工程专业学生提供身临其境的互动学习体验，提高他们对机器操作的理解，同时强调安全协议。本研究介绍了一种 AR 方法，旨在克服在理解机器复杂工作原理和遵守安全准则时遇到的挑战。通过将数字信息叠加到物理工作区，AR 可以帮助学生直观地了解机器组件、操作程序和安全措施，从而促进更有效的学习过程。在 AR 体验中，我们整合了车间环境的传感器数据。通过这种集成，可以对机器性能、环境条件和学生活动进行实时监控。此外，本研究还探讨了 AR 在车间监督方面的潜力。车间操作员可以实时监控学生的活动，确保学生遵守安全协议，并在需要时提供个性化帮助。

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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