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Digital Twin Technology – An Approach for Industrie 4.0 Vertical and Horizontal Lifecycle Integration

Anderl, Reiner and Haag, Sebastian and Schützer, Klaus and Zancul, Eduardo :
Digital Twin Technology – An Approach for Industrie 4.0 Vertical and Horizontal Lifecycle Integration.
[Online-Edition: https://www.degruyter.com/view/j/itit.2018.60.issue-3/itit-2...]
In: it - Information Technology (60) pp. 125-132.
[Article] , (2017)

Official URL: https://www.degruyter.com/view/j/itit.2018.60.issue-3/itit-2...

Abstract

Digital Twin technology is increasingly gaining importance for digitizing industry. Even if digital twin technology still needs fundamental research, its significance for industry has become very visible, as digital twin technology is a key success factor to professionalize Cyber-Physical Systems (CPS) applications. Industrie 4.0 as an initiative to increase industrial added value is based on establishing connectivity between CPS and to enable communication between CPS. The industrial application scenarios for Industrie 4.0 aim at vertical and horizontal lifecycle integration concepts where digital twin technology plays an important role. This contribution explains major concepts of Industrie 4.0 and derives the role of digital twin technology. Furthermore, digital twin approaches are presented and as well as the proposal to use the STEP-technology (Standard for the Exchange of Product Model Data, ISO 10303) as a fundamental basis for a comprehensive digital twin technology.

Item Type: Article
Erschienen: 2017
Creators: Anderl, Reiner and Haag, Sebastian and Schützer, Klaus and Zancul, Eduardo
Title: Digital Twin Technology – An Approach for Industrie 4.0 Vertical and Horizontal Lifecycle Integration
Language: English
Abstract:

Digital Twin technology is increasingly gaining importance for digitizing industry. Even if digital twin technology still needs fundamental research, its significance for industry has become very visible, as digital twin technology is a key success factor to professionalize Cyber-Physical Systems (CPS) applications. Industrie 4.0 as an initiative to increase industrial added value is based on establishing connectivity between CPS and to enable communication between CPS. The industrial application scenarios for Industrie 4.0 aim at vertical and horizontal lifecycle integration concepts where digital twin technology plays an important role. This contribution explains major concepts of Industrie 4.0 and derives the role of digital twin technology. Furthermore, digital twin approaches are presented and as well as the proposal to use the STEP-technology (Standard for the Exchange of Product Model Data, ISO 10303) as a fundamental basis for a comprehensive digital twin technology.

Journal or Publication Title: it - Information Technology
Number: 60
Publisher: De Gruyter Oldenbourg
Uncontrolled Keywords: Digital Twin, Industrie 4.0, Lifecycle Integration
Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Department of Computer Integrated Design (DiK)
Date Deposited: 02 Jul 2018 05:34
DOI: https://doi.org/10.1515/itit-2017-0038
Official URL: https://www.degruyter.com/view/j/itit.2018.60.issue-3/itit-2...
Alternative Abstract:
Alternative abstract Language
Die Technologie des Digitalen Zwillings gewinnt zunehmend an Bedeutung für die Digitalisierung der Industrie. Auch wenn diese immer noch Grundlagenforschung benötigt, ist ihre Bedeutung für die Industrie sehr deutlich geworden, da sie ein Schlüsselerfolgsfaktor zur Professionalisierung von Cyber-Physical Systems (CPS) Anwendungen ist. Industrie 4.0 als Initiative zur Steigerung des industriellen Mehrwerts basiert auf der Herstellung der Konnektivität und der Kommunikation zwischen CPS. Die industriellen Anwendungsszenarien für Industrie 4.0 zielen auf vertikale und horizontale Lifecycle-Integration-Konzepte ab, bei denen die Digitale Zwilling Technologie eine wichtige Rolle spielt. Dieser Beitrag erläutert wichtige Konzepte von Industrie 4.0 und leitet die Rolle der Digitaler Zwilling Technologie ab. Darüber hinaus werden Ansätze vorgestellt und der Vorschlag, die STEP-Technologie (Standard für den Austausch von Produktmodelldaten, ISO 10303) als Grundlage für eine umfassende Digitaler Zwilling Technologie zu nutzen.German
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