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Contributions to Proceedings:

D. Gerhard, T. Rahmani, S. Bougain:
"Ontology-based integration of heterogeneous material data resources in Product Lifecycle Management";
in: "Proceedings of 2013 IEEE International Conference on Systems, Man, and Cybernetics", IEEE Computer Society Press, 2013, ISBN: 978-1-4799-0652-9, 4589 - 4594.



English abstract:
In the context of Design for Environment (DfE) in product development, material selection is particularly important for the product. It affects its design, its manufacturing process, and the environmental impacts over its life cycle phases [1]. For technical or functional reasons, specific materials with best fitting characteristics are needed. Yet, their extraction and manufacturing
process causes a substantial negative environmental impact. Material information are split or hidden in many different sources inside a company within various departments and also outside, e.g. involving information from suppliers and standardization organizations. The
granularity of material information, various old and new norms, varying names for the same material, and different languages pose a problem, especially international cooperation. This paper describes a research approach for an ontology-based integration of heterogeneous material data resources from different stages of the product
lifecycle.

German abstract:
In the context of Design for Environment (DfE) in product development, material selection is particularly important for the product. It affects its design, its manufacturing process, and the environmental impacts over its life cycle phases [1]. For technical or functional reasons, specific materials with best fitting characteristics are needed. Yet, their extraction and manufacturing
process causes a substantial negative environmental impact. Material information are split or hidden in many different sources inside a company within various departments and also outside, e.g. involving information from suppliers and standardization organizations. The
granularity of material information, various old and new norms, varying names for the same material, and different languages pose a problem, especially international cooperation. This paper describes a research approach for an ontology-based integration of heterogeneous material data resources from different stages of the product
lifecycle.

Keywords:
Ontology; Material Information; Product Development Process; Design for Environment


"Official" electronic version of the publication (accessed through its Digital Object Identifier - DOI)
http://dx.doi.org/10.1109/SMC.2013.781


Created from the Publication Database of the Vienna University of Technology.