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Mastering the supply chain by a concept of a ditigal control-twin
Citation Link: https://doi.org/10.15480/882.3120
Publikationstyp
Conference Paper
Date Issued
2020-09-23
Sprache
English
Author(s)
Herausgeber*innen
TORE-DOI
TORE-URI
First published in
Number in series
29
Start Page
661
End Page
697
Citation
Hamburg International Conference of Logistics (HICL) 29: 661-697 (2020)
Contribution to Conference
Purpose: The purpose is to design a new concept for control of the Supply-Chain for the era of industry 4.0 exploiting the huge amount of actual data of material flow ob-jects which are available thru new identification technologies, localization and com-munication systems and to use appropriate tools for evaluation and analyzing actual data. Methodology: The approach uses the idea of a Digital-Twin Concept for logistics that bases of three pillars: 1) 'reality': actual status of material flow objects 2) 'repository': digital mapping of material flow objects 3) 'regulation' of material flow. The real and virtual material flow objects are permanently compared, deviations are evaluated and harmonized by using the principle of closed-loop-control. Originality: The concept is a very new approach to master material flow for final products and required components. For this a 'Big- Picture' of a Digital Control Twin (DCT) System is designed, which is a necessary complement to the engineering ori-ented Digital-Twin-Concept to run a smart factory. Findings: The paper shows how the idea of a Digital Twin Concept for engineered products can be transferred into the world of logistics and especially for supply chains. The Digital Control Twin controls, monitors and balances material flow ob-jects according to quantity, location and time and can help to predict and solve prob-lems in advance.
Subjects
Logistics
Industry 4.0
Digitalization
Innovation
Supply Chain Management
Artificial Intelligence
Data Science
DDC Class
330: Wirtschaft
Publication version
publishedVersion
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Name
Herlyn and Zadek (2020) - Mastering the supply chain by a concept of a digital control-twin.pdf
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