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Virtual Validation of Automotive Measurement Services based on JT (ISO 14306:2012)

Faath, Andreas and Christ, Alexander and Anderl, Reiner and Braunroth, Frank (2015):
Virtual Validation of Automotive Measurement Services based on JT (ISO 14306:2012).
In: 12th IFIP International Conference on Product Lifecycle Management (PLM15), Doha, Qatar, 19 - 21.10.2015, [Conference or Workshop Item]

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Abstract

In this paper a concept for the virtual validation of automotive measurement services based on JT (ISO 14306:2012) is introduced. Each physical measuring component has a digital representation, represented by a 3D JT model. These models contain all necessary information of the measurement process and are the basis for the application of physical sensors. The developed concept enables the consistent usage of JT models and the suitable integration of virtual engineering methods into measuring services, resulting in improved efficiency and interoperability. For the implementation, instead of a CAD system, the viewing software Teamcenter Lifecycle Visualization Mockup is used. This leads to cost savings by the reduction of license fees. The concept is validated based on two measuring projects, containing separate component models and a complete vehicle model.

Item Type: Conference or Workshop Item
Erschienen: 2015
Creators: Faath, Andreas and Christ, Alexander and Anderl, Reiner and Braunroth, Frank
Title: Virtual Validation of Automotive Measurement Services based on JT (ISO 14306:2012)
Language: English
Abstract:

In this paper a concept for the virtual validation of automotive measurement services based on JT (ISO 14306:2012) is introduced. Each physical measuring component has a digital representation, represented by a 3D JT model. These models contain all necessary information of the measurement process and are the basis for the application of physical sensors. The developed concept enables the consistent usage of JT models and the suitable integration of virtual engineering methods into measuring services, resulting in improved efficiency and interoperability. For the implementation, instead of a CAD system, the viewing software Teamcenter Lifecycle Visualization Mockup is used. This leads to cost savings by the reduction of license fees. The concept is validated based on two measuring projects, containing separate component models and a complete vehicle model.

Uncontrolled Keywords: Automotive, Digitalization, Interoperability, Measurement Services, Virtual Validation
Divisions: 16 Department of Mechanical Engineering
16 Department of Mechanical Engineering > Department of Computer Integrated Design (DiK)
Event Title: 12th IFIP International Conference on Product Lifecycle Management (PLM15)
Event Location: Doha, Qatar
Event Dates: 19 - 21.10.2015
Date Deposited: 26 Nov 2015 09:05
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