5.
A. Volkova, J. Terzer and H. de Meer, "Quantifying geospatial interdependencies of ICT and power system based on open data" , Energy Informatics , vol. 4 , pp. 12 , 2021.
Anna Volkova, M.Sc.
Anna Volkova
Telefon: +49(0)851/509-4058
Fax: +49(0)851/509-3052
Raum: ITZ/IH 154
Innstraße 43
Passau
Sprechzeiten: Montag, 15:00-16:00
Publikationen
Schwerpunkte
- Smart Grid Communication & Network Security
- Disaster-Reliable Communication
- Software Defined Networking
- Smart Grid Security
Open Bachelor/Master Thesis Topics
Open topics:
Bachelor:
Master:
Co-supervised Topics:
Bachelor:
- Key Performance Indicators for the Power System Restoration Services
Master:
- Evaluation of the Energy Efficiency of the Communication Resilience
- Energy Efficient Virtual Network Embedding
Co-supervised Topics:
- BA J.Terzer. "Data Analysis for the Integrated Power an ICT System Use-Cases Generation"
Projects
Multi-Objective Black-Start in ICT-reliant Renewable Energy Systems (Blackstart)
This project aims at developing a rapid recovery method for ICT-reliant energy systems after a wide-area power loss. A so-called black-start requires delicate coordination between the ICT network, on the one hand, and the power grid, on the other hand. This is challenging, particularly in future multi-modal energy systems, which require flexible control of energy (power) generation and demand thus yielding specific requirements for the communication system — which is a power consumer itself and dependent on guaranteed power quality. In case of a black-out, the communication network and the power grid have to be brought back to an operational state in parallel — with both systems delicately interacting with one another. The resulting multi-criteria optimization problem that is investigated within this project is oriented at sequentially resupplying generators and consumers — adhering to power system stability constraints. The recovery sequence itself influences the properties of the communication system as well as the informational states (measurability and controllability) of the units such that maximizing the controllability of units during a black-start process becomes an important (potentially conflicting) goal. Within this project, an autonomous multi-agent-based approach for solving this highly dynamic and interdependent ICT state-sensitive black-start optimization problem is researched.
EU H2020 LocalRES
The main objective of LocalRES is to demonstrate at TRL8 innovative local energy systems in a sector coupling approach, which will be able to interconnect and optimize the joint operation of different energy vectors (electricity, heating, mobility) by maximizing the RES contribution and enhancing the energy system flexibility and supply security. The focus is on the renewable energy communities as main actors for leading the structural change in the current energy system towards the decarbonisation of the local energy systems based on an integrated multidirectional flow approach and prosumers, allowing to maximize the replicability and upscale the potential of the decentralized solutions developed in the project.
This project aims at developing a rapid recovery method for ICT-reliant energy systems after a wide-area power loss. A so-called black-start requires delicate coordination between the ICT network, on the one hand, and the power grid, on the other hand. This is challenging, particularly in future multi-modal energy systems, which require flexible control of energy (power) generation and demand thus yielding specific requirements for the communication system — which is a power consumer itself and dependent on guaranteed power quality. In case of a black-out, the communication network and the power grid have to be brought back to an operational state in parallel — with both systems delicately interacting with one another. The resulting multi-criteria optimization problem that is investigated within this project is oriented at sequentially resupplying generators and consumers — adhering to power system stability constraints. The recovery sequence itself influences the properties of the communication system as well as the informational states (measurability and controllability) of the units such that maximizing the controllability of units during a black-start process becomes an important (potentially conflicting) goal. Within this project, an autonomous multi-agent-based approach for solving this highly dynamic and interdependent ICT state-sensitive black-start optimization problem is researched.
EU H2020 LocalRES
The main objective of LocalRES is to demonstrate at TRL8 innovative local energy systems in a sector coupling approach, which will be able to interconnect and optimize the joint operation of different energy vectors (electricity, heating, mobility) by maximizing the RES contribution and enhancing the energy system flexibility and supply security. The focus is on the renewable energy communities as main actors for leading the structural change in the current energy system towards the decarbonisation of the local energy systems based on an integrated multidirectional flow approach and prosumers, allowing to maximize the replicability and upscale the potential of the decentralized solutions developed in the project.
Publications
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Articles
4.
A. Volkova, M. Niedermeier, R. Basmadjian and H. de Meer, "Security Challenges in Control Network Protocols: A Survey" , IEEE Communications Surveys Tutorials , pp. 1-1 , 2018.
DOI: 10.1109/COMST.2018.2872114
DOI: 10.1109/COMST.2018.2872114
3.
A. Volkova, S. Stark, S. Lehnhoff, H. de Meer and J. Bremer, "Towards a Blackout-Resilient Smart Grid Architecture" , ETG-Fb. 158: Internationaler ETG-Kongress 2019. Das Gesamtsystem im Fokus der Energiewende 8. – 9. Mai 2019, Neckar Forum, Esslingen am Neckar , 2019. IEEE .
Contribution to Proceedings
2.
A. Volkova, "Blackout Recovery: Resilient NFV-enabled ICT Infrastructure for the Smart Grid" in Abstracts from the 8th DACH+ Conference on Energy Informatics , Springer , 2019.
DOI: 10.1186/s42162-019-0098-7
DOI: 10.1186/s42162-019-0098-7
1.
S. Stark, A. Volkova, S. Lehnhoff and H. de Meer, "Why Your Power System Restoration Does Not Work and What the ICT System Can Do About It" in Proceedings of the Twelfth ACM International Conference on Future Energy Systems , New York, NY, USA : Association for Computing Machinery (ACM) , 2021.
DOI: 10.1145/3447555.3465415
http://www.net.fim.uni-passau.de/pdf/Stark2021
DOI: 10.1145/3447555.3465415
http://www.net.fim.uni-passau.de/pdf/Stark2021
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