Use of technologically and topologically related surfaces (TTRS) geometrical theory for mechatronic design ontology

Régis Plateaux 1 Olivia Penas 1 Romain Barbedienne 2, 1 Peter Hehenberger 3 Jean-Yves Choley 1 Aude Warniez 1
1 Quartz - Laboratoire Quartz
2 IRT SystemX - IRT SystemX
3 JKU - Johannes Kepler University Linz [linz]
Abstract : This paper presents the MBSE challenges related to the conceptual design of mechatronic systems and especially the need to ensure geometrical knowledge consistency. To tackle this issue, we propose to define an ontology based on the TTRS (Technologically and Topologically Related Surfaces) geometrical modeling. We implement it in the Protégé environment and validate it through the modeling process of an Electric Power Train, including many additional geometrical issues related to mechatronic system design, such as physical integration and the related compactness metric and the thermal modeling for multi-physical couplings. Geometrical knowledge consistency has been ensured through a model transformation between SysML and FreeCAD, using Python.
Keywords : Ontology semantic modeling mechatronic design geometrical modeling
Type de document :
Article dans une revue
Computer-Aided Design and Applications, CAD Solutions LLC (imprimé) and Taylor & Francis Online (en ligne), 2017, pp.1-15. 〈10.1080/16864360.2017.1280270〉
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https://hal.archives-ouvertes.fr/hal-01505596
Contributeur : Olivia Penas <>
Soumis le : mardi 11 avril 2017 - 15:04:14
Dernière modification le : mercredi 13 février 2019 - 23:44:02

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QUARTZ | TDS-MACS | IRT-SYSTEMX | SUPMECA

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Régis Plateaux, Olivia Penas, Romain Barbedienne, Peter Hehenberger, Jean-Yves Choley, et al.. Use of technologically and topologically related surfaces (TTRS) geometrical theory for mechatronic design ontology. Computer-Aided Design and Applications, CAD Solutions LLC (imprimé) and Taylor & Francis Online (en ligne), 2017, pp.1-15. 〈10.1080/16864360.2017.1280270〉. 〈hal-01505596〉

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