Description du projet
Un logiciel libre pour la technologie des jumeaux numériques
La technologie qui sous-tend la production de répliques numériques de dispositifs physiques a ouvert le champ des possibles de la fabrication industrielle. Plus le jumelage numérique sera capable de reproduire un objet physique, plus il sera précis dans sa prévision des performances ou de la défaillance de ce dispositif physique. Les technologies de jumelage numérique vont jouer un rôle important dans l’industrie 4.0. Le projet Edge Twins HPC, financé par l’UE, développera un outil logiciel libre pour produire des jumeaux numériques installés sur l’objet physique qu’ils représentent et fonctionnant dans des environnements de calcul très restreints. L’objectif sera de promouvoir une nouvelle génération d’applications innovantes en temps réel, allant des véhicules autonomes aux petits dispositifs.
Objectif
Digital twins, along with the Internet of Things and Edge computing , are expected to play a decisive role in the next decade’s industrial markets (Industry 4.0) enabling dramatic improvements in complex systems design and operation. However, this technology has not been yet widely implemented, since it requires the collaboration of experts in multiple fields and costly computational tools.
The EdgeTwins HPC project brings a different approach that will extend digital twins to new market segments and users (i.e. SMEs). It aims to develop an open-source software tool (builder) to produce digital twins that run on the Edge. That is, they are installed on the physical asset they represent, and operate in very constrained compute environments. This approach will enable a new breed of novel real-time applications, from autonomous vehicles to small devices.
The main objective of this FET Innovation Launchpad project is to evaluate the business feasibility of an open-source Digital Twin builder software for Edge applications and develop and test a demonstrator (alpha) for one or more use cases identified in the market analysis.
To do so, the participants will leverage on the high-performance computing software stemming of the ExaQute FET Proactive project. These assets will allow, using Reduced Order Modelling techniques, to model complex 4D simulations to later extract the essential features of the solution so that similar results can be obtained at a vastly reduced computational cost.
Champ scientifique
Programme(s)
Régime de financement
CSA - Coordination and support actionCoordinateur
08034 Barcelona
Espagne