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Bibliographic Details
Main Authors: Hacker, Immanuel, Sen, Ömer, van der Velde, Dennis, Schmidtke, Florian, Ulbig, Andreas
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.10430
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author Hacker, Immanuel
Sen, Ömer
van der Velde, Dennis
Schmidtke, Florian
Ulbig, Andreas
author_facet Hacker, Immanuel
Sen, Ömer
van der Velde, Dennis
Schmidtke, Florian
Ulbig, Andreas
contents The increased integration of information and communications technology at the distribution grid level offers broader opportunities for active operational management concepts. At the same time, requirements for resilience against internal and external threats to the power supply, such as outages or cyberattacks, are increasing. The emerging threat landscape needs to be investigated to ensure the security of supply of future distribution grids. This extended abstract presents a co-simulation environment to study communication infrastructures for the resilient operation of distribution grids. For this purpose, a communication network emulation and a power grid simulation are combined in a common modular environment. This will provide the basis for cybersecurity investigations and testing of new active operation management concepts for smart grids. Exemplary laboratory tests and attack replications will be used to demonstrate the diverse use cases of our co-simulation approach.
format Preprint
id arxiv_https___arxiv_org_abs_2410_10430
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Towards more realistic co-simulation of cyber-physical energy distribution systems
Hacker, Immanuel
Sen, Ömer
van der Velde, Dennis
Schmidtke, Florian
Ulbig, Andreas
Systems and Control
The increased integration of information and communications technology at the distribution grid level offers broader opportunities for active operational management concepts. At the same time, requirements for resilience against internal and external threats to the power supply, such as outages or cyberattacks, are increasing. The emerging threat landscape needs to be investigated to ensure the security of supply of future distribution grids. This extended abstract presents a co-simulation environment to study communication infrastructures for the resilient operation of distribution grids. For this purpose, a communication network emulation and a power grid simulation are combined in a common modular environment. This will provide the basis for cybersecurity investigations and testing of new active operation management concepts for smart grids. Exemplary laboratory tests and attack replications will be used to demonstrate the diverse use cases of our co-simulation approach.
title Towards more realistic co-simulation of cyber-physical energy distribution systems
topic Systems and Control
url https://arxiv.org/abs/2410.10430