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Main Authors: Ofenloch, Annika, Schwarz, Jan Sören, Tolk, Deborah, Brandt, Tobias, Eilers, Reef, Ramirez, Rebeca
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.16937
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author Ofenloch, Annika
Schwarz, Jan Sören
Tolk, Deborah
Brandt, Tobias
Eilers, Reef
Ramirez, Rebeca
author_facet Ofenloch, Annika
Schwarz, Jan Sören
Tolk, Deborah
Brandt, Tobias
Eilers, Reef
Ramirez, Rebeca
contents Co-simulation is commonly used for the analysis of complex cyber-physical energy systems (CPES). Different domain-specific simulation tools and modeling approaches are used to simulate all or parts of the system. The co-simulation framework mosaik is a powerful tool to couple these simulation tools and models. This paper identifies the limitations of mosaik 2 for simulating systems that combine continuous and discrete behavior, and introduces the new version mosaik 3.0 with improved event capabilities to efficiently combine time-stepped and discrete event simulation. Here it is explained how these extensions and new features of mosaik can be applied and implemented for extended co-simulation scenarios.
format Preprint
id arxiv_https___arxiv_org_abs_2410_16937
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle MOSAIK 3.0: Combining Time-Stepped and Discrete Event Simulation
Ofenloch, Annika
Schwarz, Jan Sören
Tolk, Deborah
Brandt, Tobias
Eilers, Reef
Ramirez, Rebeca
Computational Engineering, Finance, and Science
Co-simulation is commonly used for the analysis of complex cyber-physical energy systems (CPES). Different domain-specific simulation tools and modeling approaches are used to simulate all or parts of the system. The co-simulation framework mosaik is a powerful tool to couple these simulation tools and models. This paper identifies the limitations of mosaik 2 for simulating systems that combine continuous and discrete behavior, and introduces the new version mosaik 3.0 with improved event capabilities to efficiently combine time-stepped and discrete event simulation. Here it is explained how these extensions and new features of mosaik can be applied and implemented for extended co-simulation scenarios.
title MOSAIK 3.0: Combining Time-Stepped and Discrete Event Simulation
topic Computational Engineering, Finance, and Science
url https://arxiv.org/abs/2410.16937