Smart grid systems are characterized by high complexity due to interactions between a traditional passive network and active power electronic components, coupled using communication links. Additionally, automation and information technology plays an important role in order to operate and optimize such cyber-physical energy systems with a high(er) penetration of fluctuating renewable generation and controllable loads. As a result of these developments the validation on the system level becomes much more important during the whole engineering and deployment process, today. In earlier development stages and for larger system configurations laboratory-based testing is not always an option. Due to recent developments, simulation-based approaches are now an appropriate tool to support the development, implementation, and roll-out of smart grid solutions. This paper discusses the current state of simulation-based approaches and outlines the necessary future research and development directions in the domain of power and energy systems.
%0 Conference Paper
%1 steinbrink2017simulationbased
%A Steinbrink, C.
%A Lehnhoff, S.
%A Rohjans, S.
%A Strasser, T. I.
%A Widl, E.
%A Moyo, C.
%A Lauss, G.
%A Lehfuss, F.
%A Faschang, M.
%A Palensky, P.
%A van der Meer, A. A.
%A Heussen, K.
%A Gehrke, O.
%A Guillo-Sansano, E.
%A Syed, M. H.
%A Emhemed, A.
%A Brandl, R.
%A Nguyen, V. H.
%A Khavari, A.
%A Tran, Q. T.
%A Kotsampopoulos, P.
%A Hatziargyriou, N.
%A Akroud, N.
%A Rikos, E.
%A Degefa, M. Z.
%B Industrial Applications of Holonic and Multi-Agent Systems
%C Cham
%D 2017
%E Marík, Vladimír
%E Wahlster, Wolfgang
%E Strasser, Thomas
%E Kadera, Petr
%I Springer International Publishing
%K 00a72-general-methods-of-simulation 78a55-optics-electromagnetic-theory-technical-applications 78m99-basic-methods-for-problems-in-optics-and-electromagnetic-theory
%P 171--185
%T Simulation-Based Validation of Smart Grids -- Status Quo and Future Research Trends
%X Smart grid systems are characterized by high complexity due to interactions between a traditional passive network and active power electronic components, coupled using communication links. Additionally, automation and information technology plays an important role in order to operate and optimize such cyber-physical energy systems with a high(er) penetration of fluctuating renewable generation and controllable loads. As a result of these developments the validation on the system level becomes much more important during the whole engineering and deployment process, today. In earlier development stages and for larger system configurations laboratory-based testing is not always an option. Due to recent developments, simulation-based approaches are now an appropriate tool to support the development, implementation, and roll-out of smart grid solutions. This paper discusses the current state of simulation-based approaches and outlines the necessary future research and development directions in the domain of power and energy systems.
%@ 978-3-319-64635-0
@inproceedings{steinbrink2017simulationbased,
abstract = {Smart grid systems are characterized by high complexity due to interactions between a traditional passive network and active power electronic components, coupled using communication links. Additionally, automation and information technology plays an important role in order to operate and optimize such cyber-physical energy systems with a high(er) penetration of fluctuating renewable generation and controllable loads. As a result of these developments the validation on the system level becomes much more important during the whole engineering and deployment process, today. In earlier development stages and for larger system configurations laboratory-based testing is not always an option. Due to recent developments, simulation-based approaches are now an appropriate tool to support the development, implementation, and roll-out of smart grid solutions. This paper discusses the current state of simulation-based approaches and outlines the necessary future research and development directions in the domain of power and energy systems.},
added-at = {2023-05-30T03:56:33.000+0200},
address = {Cham},
author = {Steinbrink, C. and Lehnhoff, S. and Rohjans, S. and Strasser, T. I. and Widl, E. and Moyo, C. and Lauss, G. and Lehfuss, F. and Faschang, M. and Palensky, P. and van der Meer, A. A. and Heussen, K. and Gehrke, O. and Guillo-Sansano, E. and Syed, M. H. and Emhemed, A. and Brandl, R. and Nguyen, V. H. and Khavari, A. and Tran, Q. T. and Kotsampopoulos, P. and Hatziargyriou, N. and Akroud, N. and Rikos, E. and Degefa, M. Z.},
biburl = {https://www.bibsonomy.org/bibtex/2d93c0aeee9dec3698c4f7fe8e614e8ed/gdmcbain},
booktitle = {Industrial Applications of Holonic and Multi-Agent Systems},
editor = {Ma{\v{r}}{\'i}k, Vladim{\'i}r and Wahlster, Wolfgang and Strasser, Thomas and Kadera, Petr},
interhash = {9c217a3bb6511d4a3120c76d5779936a},
intrahash = {d93c0aeee9dec3698c4f7fe8e614e8ed},
isbn = {978-3-319-64635-0},
keywords = {00a72-general-methods-of-simulation 78a55-optics-electromagnetic-theory-technical-applications 78m99-basic-methods-for-problems-in-optics-and-electromagnetic-theory},
pages = {171--185},
publisher = {Springer International Publishing},
timestamp = {2023-05-30T03:56:33.000+0200},
title = {Simulation-Based Validation of Smart Grids -- Status Quo and Future Research Trends},
year = 2017
}