Authors:
David Oudart
1
;
Jérôme Cantenot
2
;
Frédéric Boulanger
3
and
Sophie Chabridon
4
Affiliations:
1
EDF R&D, Palaiseau, France, SAMOVAR, CNRS, Université Paris-Saclay, Télécom SudParis, Évry and France
;
2
EDF R&D, Palaiseau and France
;
3
LRI, CNRS, CentraleSupélec, Université Paris-Saclay and France
;
4
SAMOVAR, CNRS, Université Paris-Saclay, Télécom SudParis, Évry and France
Keyword(s):
Cosimulation, FMI, IT, MDE, Smart Grid, Cyber-physical System.
Related
Ontology
Subjects/Areas/Topics:
Applications and Software Development
;
Frameworks for Model-Driven Development
;
Hybrid Multi-Modeling Approaches
;
Methodologies, Processes and Platforms
;
Model Execution and Simulation
;
Model-Driven Software Development
;
Models
;
Paradigm Trends
;
Software Engineering
;
Systems Engineering
Abstract:
Smart grids are the oncoming generation of power grids, which rely on information and communication technologies to tackle decentralized and intermittent energy sources such as wind farms and photovoltaic plants. They integrate electronics, software information processing and telecommunications technical domains. Therefore the design of smart grids is complex because of the various technical domains and modeling tools at stake. In this article, we present an approach to their design, which relies on model driven engineering, executable models and FMI based cosimulation. This approach is illustrated on the use case of an insular power grid and allows to study the impact of power production decisions.