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A Model-Driven Digital Twin for Manufacturing Process Adaptation

Patrick Spaney, Steffen Becker, Robin Ströbel, Jürgen Fleischer, Soraya Zenhari, Hans‐Christian Möhring, Ann-Kathrin Splettstößer, Andreas Wortmann

202312 citationsDOI

Abstract

Digital twins are a means to better understand, engineer, and use cyber-physical systems. In manufacturing, digital twins can optimize production, prevent failures, and save resources. To consolidate the different approaches to digital twins in manufacturing, ISO 23247 defines the essential functional elements of a digital twin. We present a model-driven digital twin exemplar that realizes part of this standard to analyze milling processes. Our digital twin reference architecture includes a digital twin service component that manages and connects different services to adapt the manufacturing process according to a given objective. Two digital twin services, for the adaptation of component and tool conditions and for geometric error adaptation, illustrate the potential of this reference architecture. The digital twin connects to an industrial milling machine via domain-specific languages. This exemplar uses models at design time and at runtime to separate the concerns of software engineers and domain experts and leverages these models to understand and optimize the use of industrial machine tools.

Topics & Concepts

Component (thermodynamics)Computer scienceProcess (computing)Adaptation (eye)Domain (mathematical analysis)Reference architectureArchitectureService (business)Component-based software engineeringSoftwareSoftware engineeringSoftware architectureDistributed computingSoftware systemOperating systemEconomicsEconomyMathematicsOpticsPhysicsThermodynamicsVisual artsMathematical analysisArtManufacturing Process and OptimizationDigital Transformation in IndustryFlexible and Reconfigurable Manufacturing Systems
A Model-Driven Digital Twin for Manufacturing Process Adaptation | Litcius