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Systematics for an Integrative Modelling of Product and Production System

Louis Schäfer, Matthias Günther, Alex Martin, Mariella Lüpfert, Constantin Mandel, Simon Rapp, Gisela Lanza, Harald Anacker, Albert Albers, Daniel Köchling

2023Procedia CIRP13 citationsDOIOpen Access PDF

Abstract

Due to shorter product life-cycles, manufacturing companies nowadays must maximize efficiency in development and planning of products and production systems. To achieve this, new methods and tools are required to cope with increasing product variants and system complexity. Therefore, we propose a holistic systematics to develop a consistent, model-based architecture for products, production systems and their interdependencies. For this, we give a domain-specific ontology containing model elements, relationships and attributes. Ontology and systematics are applied to a use-case from the automotive industry. In summary, the approach deals with modern-day demands in engineering by considering interdependencies between product and production systems.

Topics & Concepts

InterdependenceOntologyAutomotive industryProduct (mathematics)Systems engineeringProduction (economics)SystematicsNew product developmentDomain (mathematical analysis)Computer scienceEngineeringManufacturing engineeringBusinessTaxonomy (biology)EcologyMathematicsBiologyAerospace engineeringMathematical analysisMacroeconomicsMarketingLawGeometryPolitical sciencePhilosophyEconomicsEpistemologyFlexible and Reconfigurable Manufacturing SystemsBusiness Process Modeling and AnalysisSemantic Web and Ontologies
Systematics for an Integrative Modelling of Product and Production System | Litcius