Simon Stock

M.Sc.
Research Assistant

Contact

Simon Stock, M. Sc.
E-6 Elektrische Energietechnik
  • Elektrische Energietechnik
Office Hours
Jederzeit
Harburger Schloßstraße 36,
21079 Hamburg
Building HS36, Room C3 0.006
Phone: +49 40 42878 2378
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Research Projects

Applications of AI in distribution system operation

Applications of AI in distribution system operation

Hamburg University of Technology (TUHH); Duration: 2020 to 2024

VeN²uS
Networked grid protection systems - Adaptive and interconnected

VeN²uS

Networked grid protection systems - Adaptive and interconnected

Federal Ministry for Economic Affairs and Climate Action (BMWK); Duration: 2021 to 2024

Research Focus

Optimal operation and energy managment in electrical distribution grids (Smart Grids) using artifical intelligence

Publications

TUHH Open Research (TORE)

2023

2022

2021

Courses

Stud.IP
link to course in Stud.IP Studip_icon
Seminare.EIM: Seminar on Electromagnetic Compatibility and Electric Power Systems (Bachelor/Master-ET)
Semester:
WiSe 22/23
Course type:
Seminar
Lecturer:
Prof. Dr.-Ing. Christian Becker, Dr. Anna Katharina Kirf, Kathleen Potzahr, Prof. Dr. sc. techn. Christian Schuster, Marwan Mostafa, M.Sc., Mirco Woidelko, M.Sc., M.A., Dr. Cheng Yang, Christoph Klie, M.Sc., Johannes Heise, M.Sc., Dr.-Ing. Jan-Peter Heckel, Simon Stock, M.Sc., Hanko Ipach, M.Sc., Robert Annuth, M.Sc., Béla Wiegel, M.Sc., Tom Steffen, M.Sc.
Description:
Due to the energy transition, an increasing number of renewable energy plants are installed and connected to the grid. Their integration into the existing grid structure leads to challenging problems, which need to be solved to keep the grid stable. In addition to the conventional methods, the increasing availability of computational power allows to explore more computationally expensive algorithms and techniques. Besides optimization algorithms, machine learning approaches have gained popularity in the field of power engineering. Machine learning is a very diverse approach also used in multiple other disciplines and can be tailored to solve various problems. It offers a broad variety of techniques, networks, and algorithms with multiple advantages. In this joint seminar, the different applications for optimization techniques and machine learning in electrical energy systems are presented and discussed. The Seminar is open for Bachelor and Master Students in the electrical engineering program of TUHH. PhD students from both Institutes present their current research, while Bachelor/Master students give presentations on topics related to either power technology or electromagnetic compatibility.
Area classification:
Studiendekanat Elektrotechnik, Informatik und Mathematik
Stud.IP informationen about this course:
Home institute: Studiendekanat Elektrotechnik, Informatik und Mathematik (E)
Registered participants in Stud.IP: 33
Postings: 2
Documents: 4

Supervised Theses

ongoing
completed

2021

  • Hund, P. (2021). Modellierung eines elektrischen Netzes zur Demonstration des Einflusses von virtueller Trägheit durch umrichterbasierte Energieanlagen.

  • Hund, P. (2021). Koordinierte Bereitstellung von virtueller Trägheit durch erneuerbare umrichterbasierte Energieanlagen in Verteilnetzen mithilfe von künstlicher Intelligenz.

  • Möller, P. (2021). Erfassung der Knotenspannung in Niederspannungsnetzen auf Basis von dezentralen Messeinrichtungen mithilfe von Machine learning.

  • Plant, R. (2021). Estimation of Power System Inertia in an Inverter-Dominated Distribution Grid Using Machine Learning.

2020

  • Dressel, M. (2020). Modellierung der Zustandsschätzung eines elektrischen Netzes mit Hilfe von Graph neuronalen Netzen.

  • Schmidt, M. (2020). Vorhersage von zuverlässig bereitstellbarer Regelleistung aus Erneuerbaren Energien mithilfe von neuronalen Netzen.