Description du projet
Un coup de pouce numérique pour la fabrication cognitive
L’augmentation de la production et la réduction des atteintes à l’environnement constituent des objectifs essentiels pour la transformation numérique des usines de production. Le projet HyperCOG, financé par l’UE, propose un système cyberphysique industriel avancé (ICPS) qui augmentera les performances de production, limitera les émissions et la consommation d’énergie, et offrira aux travailleurs une formation permanente à la numérisation. Ce système s’appuie sur les avancées technologiques disponibles sur le marché. Il offre un réseau hyperconnecté de nœuds numériques qui peuvent recevoir des flux considérables de données en temps réel. Il peut ainsi doter les installations industrielles de capacités de vigilance et de raisonnement cognitif. Les impacts du système sur la productivité et l’environnement seront évalués au travers de trois cas d’utilisation faisant partie de SPIRE – dans les secteurs de l’acier, du ciment et de la chimie.
Objectif
HyperCOG project “HYPERCONNECTED ARCHITECTURE FOR HIGH COGNITIVE PRODUCTION PLANTS” addresses the full digital transformation of the process industry and cognitive process production plants through an innovative Industrial Cyber-Physical System (ICPS). It is based on commercially available advanced technologies, that will enable the development of a hyper-connected network of digital nodes. The nodes can catch outstanding streams of data in real-time, which together with the high computing capabilities available nowadays, provide sensing, knowledge and cognitive reasoning to the industrial business.
Furthermore, HyperCOG is deeply grounded in the last advances in Artificial Intelligence such as modelling for twin factories, decision-support systems for human-machine interaction and augmented reality for industrial processes visualization. It pursues self-learning from the process in order to deal with the typical dynamic fluctuations of the industrial processes and global optimization.
The objective is to increase the production performance while reducing the environmental impact by reducing the energy consumption and the CO2 emissions thereof. Society will get profit of this project not only throughout the environmental impact, but through the lifelong learning of workers and vocational training for digitisation, and the available training modules for youth at schools such as ESTIA technological institute or U-PEC University.
The breaking-edge system proposed in HyperCOG project will be validated on the productivity and environmental impacts, replicability and usability aspects on three use cases belonging to the SPIRE scope such us SIDENOR (steel making), CIMSA (cement), and SOLVAY (chemical) use cases.
Champ scientifique
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Programme(s)
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Régime de financement
IA - Innovation actionCoordinateur
20240 Ordizia
Espagne