SMEs can touch Industry 4.0 in the Smart Learning Factory

David Grube Hansen*, Ali Ahmad Malik, Arne Bilberg

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Resumé

This paper describes how a Smart Learning Factory enables manufacturing SMEs of capturing the benefits of highly complex tools and enablers such as virtual simulation and the Digital Twin. The collaborative factory design approach is enabled by embedding the use of discrete event simulation connected with physical objects placed on a Digital Twin Module (DTM). The users can manipulate the physical objects as physical counterparts to the machines and equipment in the virtual space and visualize the designed factory and make further analysis. The method combines the use of dynamic discrete event simulation seamlessly connected with physical objects placed on the DTM to enable collaborative design. The bridging between simulation and physical objects is done by using a digital integration platform. Using physical artifacts as counterparts of the virtual objects in the simulation, participants confidently interact with the simulation regardless level of skills and competencies. The Smart Learning Factory is helping SMEs to get inspired using physical and virtual simulations for factory design and re-design, and develop solutions in a collaborative environment. This is in-line with the theory of lean automation, that suggests making simple and cheap automation and automating the correct value-adding processes. A demonstration case of designing a production setup in cooperation with a SME is developed and documented.

OriginalsprogEngelsk
TidsskriftProcedia Manufacturing
Vol/bind31
Sider (fra-til)219-224
ISSN2351-9789
DOI
StatusUdgivet - 2019
Begivenhed9th Conference on Learning Factories - Braunschweig, Tyskland
Varighed: 26. mar. 201929. mar. 2019

Konference

Konference9th Conference on Learning Factories
LandTyskland
ByBraunschweig
Periode26/03/201929/03/2019

Fingeraftryk

Industrial plants
Discrete event simulation
Industry
Automation
Demonstrations

Citer dette

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abstract = "This paper describes how a Smart Learning Factory enables manufacturing SMEs of capturing the benefits of highly complex tools and enablers such as virtual simulation and the Digital Twin. The collaborative factory design approach is enabled by embedding the use of discrete event simulation connected with physical objects placed on a Digital Twin Module (DTM). The users can manipulate the physical objects as physical counterparts to the machines and equipment in the virtual space and visualize the designed factory and make further analysis. The method combines the use of dynamic discrete event simulation seamlessly connected with physical objects placed on the DTM to enable collaborative design. The bridging between simulation and physical objects is done by using a digital integration platform. Using physical artifacts as counterparts of the virtual objects in the simulation, participants confidently interact with the simulation regardless level of skills and competencies. The Smart Learning Factory is helping SMEs to get inspired using physical and virtual simulations for factory design and re-design, and develop solutions in a collaborative environment. This is in-line with the theory of lean automation, that suggests making simple and cheap automation and automating the correct value-adding processes. A demonstration case of designing a production setup in cooperation with a SME is developed and documented.",
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SMEs can touch Industry 4.0 in the Smart Learning Factory. / Grube Hansen, David; Malik, Ali Ahmad; Bilberg, Arne.

I: Procedia Manufacturing, Bind 31, 2019, s. 219-224.

Publikation: Bidrag til tidsskriftKonferenceartikelForskningpeer review

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AB - This paper describes how a Smart Learning Factory enables manufacturing SMEs of capturing the benefits of highly complex tools and enablers such as virtual simulation and the Digital Twin. The collaborative factory design approach is enabled by embedding the use of discrete event simulation connected with physical objects placed on a Digital Twin Module (DTM). The users can manipulate the physical objects as physical counterparts to the machines and equipment in the virtual space and visualize the designed factory and make further analysis. The method combines the use of dynamic discrete event simulation seamlessly connected with physical objects placed on the DTM to enable collaborative design. The bridging between simulation and physical objects is done by using a digital integration platform. Using physical artifacts as counterparts of the virtual objects in the simulation, participants confidently interact with the simulation regardless level of skills and competencies. The Smart Learning Factory is helping SMEs to get inspired using physical and virtual simulations for factory design and re-design, and develop solutions in a collaborative environment. This is in-line with the theory of lean automation, that suggests making simple and cheap automation and automating the correct value-adding processes. A demonstration case of designing a production setup in cooperation with a SME is developed and documented.

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