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  KEYWORD

ELECTRONIC DESIGN AUTOMATION - EDA

Design and development of an abstraction layer for real-time hardware integration in EC Lab co-simulation infrastructure

Parole chiave CO-SIMULATION TECHNIQUES, DISTRIBUTED SYSTEM, MULTI-ENERGY-SYSTEM, SIMULATION, SMART CITIES, SMART GRID, SMART GRIDS

Riferimenti LORENZO BOTTACCIOLI, EDOARDO PATTI

Riferimenti esterni Luca Barbierato (luca.barbierato@polito.it)

Gruppi di ricerca ELECTRONIC DESIGN AUTOMATION - EDA, Energy Center Lab, GR-06 - ELECTRONIC DESIGN AUTOMATION - EDA, ICT4SS - ICT FOR SMART SOCIETIES

Tipo tesi SPERIMENTALE

Descrizione One of the main objectives of the Energy Center LAB initiative consists on designing a Multi-Energy-System (MES) Co-Simulation Platform able to qualitatively and quantitatively solve energetic transition scenarios [1]. The co-simulation infrastructure of Energy Center Lab will integrate different Digital Real-time Simulator [DRTS], such as RTDS Technologies and OpalRT, that provides power systems simulation technology for fast, reliable, accurate and cost-effective study of power systems. DRTS permits also to interconnect real hardware components to test their functionalities in simulated complex smart grid scenarios. This co-simulation approach is called Hardware-in-the-Loop (HIL). The aims of the thesis consist on:
1. studying Mosaik co-simulation framework and run a simple non-real-time co-simulation scenario
2. install a linux real-time kernel on Mosaik co-simulation server (PREEMPT RT Patch)
3. run the above mentioned co-simulation scenario on Mosaik server in real-time
4. design the interconnection of an OpalRT real-time simulator exploiting an abstraction layer

[1] P. Mancarella. MES (Multi-Energy Systems): An overview of concepts and evaluation models. Energy, 65:1–17, 2014.


Scadenza validita proposta 02/03/2025      PROPONI LA TUA CANDIDATURA