Digital Twin Platforms: Architectures and Functions

Volume 2: Manufacturing Processes; Manufacturing Systems; Nano/Micro/Meso Manufacturing; Quality and Reliability Pub Date : 2022-06-27 DOI:10.1115/msec2022-85085

Huiyue Huang, Tang Ji, Xun Xu

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引用次数: 1

Abstract

In the Industry 4.0 era, many emerging technologies are being embraced by manufacturers, including Digital Twin (DT) technology. DT has been known as a critical enabler for smart manufacturing and has attracted much attention from academia and industry. Meanwhile, the demand for DT platforms is growing as they enable more effective and easy development and deployment for DTs. DT expands to different industrial scenarios, which has led to an increasing variety of DT platforms. However, there are many different understandings and concepts of DT from diverse backgrounds, so it is essential to acquire a good understanding of DT platforms. This paper aims to provide a literature review of DT platforms in manufacturing. Firstly, the current state of DT technology is presented, and a generalized definition of the DT platform is proposed. A comprehensive search for literature related to the DT platform was conducted using the Web of Science database through the definition. Meanwhile, the importance of ISO 23247, an international standard on DT frameworks for manufacturing, has been discussed to give a general view of requirements for building a DT platform. After that, typical DT platforms in both academia and industry were analyzed separately. Finally, a discussion is carried out to summarise the architecture, features, and functions that are important for DT platform development.

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数字孪生平台:架构和功能

在工业4.0时代，许多新兴技术正在被制造商所接受，其中包括数字孪生(DT)技术。数据挖掘作为智能制造的关键推动者，已经引起了学术界和工业界的广泛关注。与此同时，对DT平台的需求正在增长，因为它们能够更有效、更容易地开发和部署DT。DT扩展到不同的工业场景，导致DT平台的种类越来越多。然而，不同背景的人对DT有许多不同的理解和概念，因此有必要对DT平台有一个很好的了解。本文旨在对制造业中的DT平台进行文献综述。首先，介绍了DT技术的现状，提出了DT平台的广义定义。通过定义，利用Web of Science数据库对DT平台相关文献进行全面检索。与此同时，讨论了ISO 23247的重要性，这是一个关于制造业DT框架的国际标准，它给出了构建DT平台的总体要求。然后，分别对学术界和工业界的典型DT平台进行了分析。最后，对DT平台开发的重要架构、特性和功能进行了总结。

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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来源期刊

Volume 2: Manufacturing Processes; Manufacturing Systems; Nano/Micro/Meso Manufacturing; Quality and Reliability

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