Towards a Secure, Resilient, and Distributed Infrastructure for Hydropower Plant Unit Control

Andrea Höller; Johannes Iber; Tobias Rauter; Christian Josef Kreiner

Towards a Secure, Resilient, and Distributed Infrastructure for Hydropower Plant Unit Control

Andrea Höller, Johannes Iber, Tobias Rauter, Christian Josef Kreiner

Institut für Technische Informatik (4480)

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Abstract

Today, there are ever increasing demands on hydro-electrical power plant controllers. They have to deal with a power grid that becomes ever more unpredictable due to renewable energies. Furthermore, power plants represent a critical infrastructure that have to provide a full operation, even in the presence of cyber-attacks and internal faults.

Here, we present an approach towards tackling these challenges by integrating the knowledge of multiple research domains such as security, fault tolerance and modeling. We propose a distributed infrastructure that provides resilience via an assured dynamic self-adaption. Further, we show the integration into an existing hydropower plant unit control. %how to integrate this approach into an existing infrastructure for hydro-electrical power plants.

Originalsprache	englisch
Titel	Proceedings of the International Conference on Embedded Wireless Systems and Networks
Redakteure/-innen	Kay Römer, Koen Langendoen, Thiemo Voigt
Herausgeber (Verlag)	Junction Publishing
Seiten	253-254
Seitenumfang	2
ISBN (Print)	978-0-9949886-0-7
Publikationsstatus	Veröffentlicht - 14 März 2016
Veranstaltung	13th International Conference on Embedded Wireless Systems and Networks: EWSN 2016 - TU Graz, Graz, Österreich Dauer: 15 Feb. 2016 → 17 Feb. 2016

Konferenz

Konferenz	13th International Conference on Embedded Wireless Systems and Networks
Kurztitel	EWSN
Land/Gebiet	Österreich
Ort	Graz
Zeitraum	15/02/16 → 17/02/16

UN SDGs

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https://dl.acm.org/ft_gateway.cfm?id=2893759&ftid=1698556&dwn=1&CFID=729783476&CFTOKEN=82065690

AH-HyUnify - Steuerungsplattform für Stromerzeugung aus Wasserkraft
Brenner, E. (Projektleiter an der OE), Iber, J. (Teilnehmer / Mitarbeiter), Rauter, T. (Teilnehmer / Mitarbeiter), Kreiner, C. J. (Projektleiter an der OE) & Hölbling, A. (Teilnehmer / Mitarbeiter)
1/11/14 → 31/12/17
Projekt: Forschungsprojekt
Industrial Informatics
Veledar, O. (Kontaktperson), Blažević, R. (Teilnehmer), Dobaj, J. (Teilnehmer), Krug, T. (Teilnehmer) & Macher, G. (Koordinator)
1/09/12 → 31/12/24
Projekt: Arbeitsgebiet

Dieses zitieren

Höller, A., Iber, J., Rauter, T., & Kreiner, C. J. (2016). Towards a Secure, Resilient, and Distributed Infrastructure for Hydropower Plant Unit Control. in K. Römer, K. Langendoen, & T. Voigt (Hrsg.), Proceedings of the International Conference on Embedded Wireless Systems and Networks (S. 253-254). Junction Publishing. https://dl.acm.org/ft_gateway.cfm?id=2893759&ftid=1698556&dwn=1&CFID=729783476&CFTOKEN=82065690

Towards a Secure, Resilient, and Distributed Infrastructure for Hydropower Plant Unit Control. / Höller, Andrea; Iber, Johannes; Rauter, Tobias et al.
Proceedings of the International Conference on Embedded Wireless Systems and Networks. Hrsg. / Kay Römer; Koen Langendoen; Thiemo Voigt. Junction Publishing, 2016. S. 253-254.

Publikation: Beitrag in Buch/Bericht/Konferenzband › Beitrag in einem Konferenzband › Begutachtung

Höller, A, Iber, J, Rauter, T & Kreiner, CJ 2016, Towards a Secure, Resilient, and Distributed Infrastructure for Hydropower Plant Unit Control. in K Römer, K Langendoen & T Voigt (Hrsg.), Proceedings of the International Conference on Embedded Wireless Systems and Networks. Junction Publishing, S. 253-254, 13th International Conference on Embedded Wireless Systems and Networks, Graz, Österreich, 15/02/16. <https://dl.acm.org/ft_gateway.cfm?id=2893759&ftid=1698556&dwn=1&CFID=729783476&CFTOKEN=82065690>

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abstract = "Today, there are ever increasing demands on hydro-electrical power plant controllers. They have to deal with a power grid that becomes ever more unpredictable due to renewable energies. Furthermore, power plants represent a critical infrastructure that have to provide a full operation, even in the presence of cyber-attacks and internal faults. Here, we present an approach towards tackling these challenges by integrating the knowledge of multiple research domains such as security, fault tolerance and modeling. We propose a distributed infrastructure that provides resilience via an assured dynamic self-adaption. Further, we show the integration into an existing hydropower plant unit control. \%how to integrate this approach into an existing infrastructure for hydro-electrical power plants.",

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AB - Today, there are ever increasing demands on hydro-electrical power plant controllers. They have to deal with a power grid that becomes ever more unpredictable due to renewable energies. Furthermore, power plants represent a critical infrastructure that have to provide a full operation, even in the presence of cyber-attacks and internal faults. Here, we present an approach towards tackling these challenges by integrating the knowledge of multiple research domains such as security, fault tolerance and modeling. We propose a distributed infrastructure that provides resilience via an assured dynamic self-adaption. Further, we show the integration into an existing hydropower plant unit control. %how to integrate this approach into an existing infrastructure for hydro-electrical power plants.

M3 - Conference paper

SN - 978-0-9949886-0-7

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EP - 254

BT - Proceedings of the International Conference on Embedded Wireless Systems and Networks

A2 - Römer, Kay

A2 - Langendoen, Koen

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PB - Junction Publishing

T2 - European Conference on Wireless Sensor Networks

Y2 - 15 February 2016 through 17 February 2016

ER -

Towards a Secure, Resilient, and Distributed Infrastructure for Hydropower Plant Unit Control

Abstract

Konferenz

UN SDGs

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Projekte

AH-HyUnify - Steuerungsplattform für Stromerzeugung aus Wasserkraft

Industrial Informatics

Dieses zitieren