D-JRA2.2 Smart Grid ICT Assessment Method

Report (2019)

Authors

Edmund Widl AIT Austrian Institute of Technology
Michael Spiegel AIT Austrian Institute of Technology
Matti Laukkanen VTT Technical Research Center of Finland
Poria Divshali VTT Technical Research Center of Finland
Van Hoa Nguyen CEA Grenoble
N. Akroud Ormazabal Corporate Technology
Mislav Findrik AIT Austrian Institute of Technology
Argon Bajraktari AIT Austrian Institute of Technology
R. Bhandia Intelligent Electrical Power Grids - EEMCS
K. Heussen Technical University of Denmark
Tue Vissing Jensen Technical University of Denmark
Panagiotis Mantafounis Institute of Computer and Communications Systems (ICCS)
Aris Dimeas Institute of Computer and Communications Systems (ICCS)
Research Group
Intelligent Electrical Power Grids (EEMCS) (TU Delft)
Copyright: © 2019 Edmund Widl, Michael Spiegel, Mislav Findrik, Argon Bajraktari, R. Bhandia, Cornelius Steinbrink, Kai Heussen, Tue Vissing Jensen, Panagiotis Mantafounis, Aris Dimeas, Matti Laukkanen, Poria Divshali, Van Hoa Nguyen, N. Akroud, Przemyslaw Chodura
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Published Date

01-01-2019

Language

English

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Faculty

Electrical Engineering, Mathematics and Computer Science

Department

Electrical Sustainable Energy

Research Group

Intelligent Electrical Power Grids

Abstract

Work Package JRA2 has developed advanced simulation-based methods to check and validateSmart Grid scenarios, configurations and applications. The required models cover the various partsof Smart Grids, such as power system infrastructures, control algorithms, communication systems,market aspects or/and external factors like weather and people. The challenge is that the individualmodels of these parts are of very different nature (continuous, discrete, stochastic, etc.). From thetechnical perspective, this challenge has been overcome with the help of offline co-simulation, wherethe most suitable simulation tools for all considered domain can be coupled via the Functional Mockup Interface specification. From the methodological perspective, this challenge has been addressedby basing the work in JRA2 on ERIGrid’s holistic testing procedure.