Laboratory Middleware for the Cyber-Physical Integration of Energy Research Infrastructures

Vetrivel Subramaniam Rajkumar; Giuseppe  Silano; Oliver Gehrke; Steffen Vogel; Edmund Widl; Gabriele Paludetto; Evangelos Rikos; Tesfaye Amare Zerihun; Alexandru Stefanov; Peter Palensky

Laboratory Middleware for the Cyber-Physical Integration of Energy Research Infrastructures

Vetrivel Subramaniam Rajkumar, Giuseppe Silano, Oliver Gehrke, Steffen Vogel, Edmund Widl, Gabriele Paludetto, Evangelos Rikos, Tesfaye Amare Zerihun, Alexandru Stefanov, Peter Palensky

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

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Abstract

The virtual integration of geographically distributed RI for joint experiments in the domain of power and energy systems poses numerous challenges, particularly in terms of tool compatibility and user-friendliness. To address some of these challenges, this work presents the development and implementation of a laboratory-based middleware and data exchange service as part of the H2020 ERIGrid 2.0 project. The middleware comprises a suite of shared software tools and services designed to seamlessly integrate RIs including transport protocols as well as interface semantics. Specifically, this work details the development of a simplified and standardised interface known as the UAPI. It eliminates the need for users to grapple with the diverse intricacies of each individual RI, offering instead a tool-agnostic and standardised interface for conducting joint experiments. The work also presents and discusses the results of a real-world case study of a geographically distributed, sector-coupling experiment conducted between laboratories in Denmark, Greece, Italy, Netherlands, and Norway utilising the developed middleware.

Original language	English
Title of host publication	12th Workshop on Modeling and Simulation of Cyber-Physical Energy Systems
Publisher	IEEE
Publication status	Accepted/In press - 2024

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Cite this

@inproceedings{4970660f77f24342a2b44040937a1b9c,

title = "Laboratory Middleware for the Cyber-Physical Integration of Energy Research Infrastructures",

abstract = "The virtual integration of geographically distributed RI for joint experiments in the domain of power and energy systems poses numerous challenges, particularly in terms of tool compatibility and user-friendliness. To address some of these challenges, this work presents the development and implementation of a laboratory-based middleware and data exchange service as part of the H2020 ERIGrid 2.0 project. The middleware comprises a suite of shared software tools and services designed to seamlessly integrate RIs including transport protocols as well as interface semantics. Specifically, this work details the development of a simplified and standardised interface known as the UAPI. It eliminates the need for users to grapple with the diverse intricacies of each individual RI, offering instead a tool-agnostic and standardised interface for conducting joint experiments. The work also presents and discusses the results of a real-world case study of a geographically distributed, sector-coupling experiment conducted between laboratories in Denmark, Greece, Italy, Netherlands, and Norway utilising the developed middleware.",

author = "{Subramaniam Rajkumar}, Vetrivel and Giuseppe Silano and Oliver Gehrke and Steffen Vogel and Edmund Widl and Gabriele Paludetto and Evangelos Rikos and Zerihun, {Tesfaye Amare} and Alexandru Stefanov and Peter Palensky",

year = "2024",

language = "English",

booktitle = "12th Workshop on Modeling and Simulation of Cyber-Physical Energy Systems",

publisher = "IEEE",

address = "United States",

}

Laboratory Middleware for the Cyber-Physical Integration of Energy Research Infrastructures. / Subramaniam Rajkumar, Vetrivel; Silano, Giuseppe ; Gehrke, Oliver et al.
12th Workshop on Modeling and Simulation of Cyber-Physical Energy Systems. IEEE, 2024.

Research output: Chapter in Book/Conference proceedings/Edited volume › Conference contribution › Scientific › peer-review

TY - GEN

T1 - Laboratory Middleware for the Cyber-Physical Integration of Energy Research Infrastructures

AU - Subramaniam Rajkumar, Vetrivel

AU - Silano, Giuseppe

AU - Gehrke, Oliver

AU - Vogel, Steffen

AU - Widl, Edmund

AU - Paludetto, Gabriele

AU - Rikos, Evangelos

AU - Zerihun, Tesfaye Amare

AU - Stefanov, Alexandru

AU - Palensky, Peter

PY - 2024

Y1 - 2024

N2 - The virtual integration of geographically distributed RI for joint experiments in the domain of power and energy systems poses numerous challenges, particularly in terms of tool compatibility and user-friendliness. To address some of these challenges, this work presents the development and implementation of a laboratory-based middleware and data exchange service as part of the H2020 ERIGrid 2.0 project. The middleware comprises a suite of shared software tools and services designed to seamlessly integrate RIs including transport protocols as well as interface semantics. Specifically, this work details the development of a simplified and standardised interface known as the UAPI. It eliminates the need for users to grapple with the diverse intricacies of each individual RI, offering instead a tool-agnostic and standardised interface for conducting joint experiments. The work also presents and discusses the results of a real-world case study of a geographically distributed, sector-coupling experiment conducted between laboratories in Denmark, Greece, Italy, Netherlands, and Norway utilising the developed middleware.

AB - The virtual integration of geographically distributed RI for joint experiments in the domain of power and energy systems poses numerous challenges, particularly in terms of tool compatibility and user-friendliness. To address some of these challenges, this work presents the development and implementation of a laboratory-based middleware and data exchange service as part of the H2020 ERIGrid 2.0 project. The middleware comprises a suite of shared software tools and services designed to seamlessly integrate RIs including transport protocols as well as interface semantics. Specifically, this work details the development of a simplified and standardised interface known as the UAPI. It eliminates the need for users to grapple with the diverse intricacies of each individual RI, offering instead a tool-agnostic and standardised interface for conducting joint experiments. The work also presents and discusses the results of a real-world case study of a geographically distributed, sector-coupling experiment conducted between laboratories in Denmark, Greece, Italy, Netherlands, and Norway utilising the developed middleware.

M3 - Conference contribution

BT - 12th Workshop on Modeling and Simulation of Cyber-Physical Energy Systems

PB - IEEE

ER -

Laboratory Middleware for the Cyber-Physical Integration of Energy Research Infrastructures

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