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Digital twin design for real-time monitoring – a case study of die cutting machine

Kung-Jeng Wang, Ying-Hao Lee and Septianda Angelica

International Journal of Production Research, 2021, vol. 59, issue 21, 6471-6485

Abstract: Digital twin (DT) is a core technology that enables the integration among physical machines, tools, material handling and warehousing, and real-time manufacturing decisions. In this study, a DT framework is proposed for the real-time monitoring of conventional machines to connect isolated machines to an interconnected system and monitor machine conditions in real-time. We implement a DT for a die cutting machine. A dashboard-based mission centre is created to display the real-time condition of the machine. The mission centre is composed of three main functions: real-time machine monitoring, overall equipment effectiveness, and order scheduling. Compared with existing approaches with a barrier of high investment and/or high design complexity, this study proposes an economic DT framework composed of conventional machine structure but has a tolerable level of industrial Internet of things capability.

Date: 2021
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Citations: View citations in EconPapers (2)

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DOI: 10.1080/00207543.2020.1817999

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