An ontology-based engineering methodology to support early concurrent engineering
Résumé
The increasing complexity of the aerospace industry has highlighted the necessity to fathom the entire product lifecycle. From initial conceptualization, engineers are meant to consider the production, maintenance, and decommissioning phases of an aircraft. By identifying how design decisions made in the conceptual phase impact the other systems involved, overall development time, costs, and quality can be significantly improved. Over the past decades, digital models have been employed in the design of complex systems, the management of data integration, and the formalization of domain knowledge. This paper examines the application of an ontology-based engineering methodology to support early concurrent engineering driven by knowledge.
Mots clés
- Concurrent engineering
- Model-Based Systems Engineering
- Ontology-Based Engineering
- Knowledge acquisition
- Concurrent engineering Model-Based Systems Engineering Ontology-Based Engineering Knowledge acquisition Concurrent engineering Model-Based Systems Engineering Ontology-Based Engineering Knowledge acquisition Concurrent engineering Model-Based Systems Engineering Ontology-Based Engineering Knowledge acquisition Concurrent engineering Model-Based Systems Engineering Ontology-Based Engineering Knowledge acquisition Concurrent engineering Model-Based Systems Engineering Ontology-Based Engineering Knowledge acquisition Concurrent engineering Model-Based Systems Engineering Ontology-Based Engineering Knowledge acquisition
- Knowledge acquisition Concurrent engineering
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