IEET: Finn Nußbaum

IEET > Staff > Research Assistants > Finn Nußbaum, M.Sc.

Finn Nußbaum

M.Sc.
Research Assistant

Contact

Finn Nußbaum, M. Sc.

E-6 Elektrische Energietechnik

Elektrische Energietechnik

Office Hours

nach Vereinbarung

Harburger Schloßstraße 22a,

21079 Hamburg

Building HS22a, Room 2.017

Phone: +49 40 42878 4092

E-mail: finn.nussbaum@tuhh.de

Personal Homepage

Research Project

KoLa

Optimized Load Management and Flexibility Coordination for Electrified Urban Public Transport

KoLa

Optimized Load Management and Flexibility Coordination for Electrified Urban Public Transport

Federal Ministry for Economic Affairs and Climate Action (BMWK); Duration: 2022 to 2026

to the project page

Publications

TUHH Open Research (TORE)

2024

Day-Ahead-Engpassprognose für elektrische Verteilnetze mittels probabilistischer Lastflussrechnung
Nußbaum, Finn Ole; Kock am Brink, Jonas; Steen, Anna-Lena; Becker, Christian
18. Symposium Energieinnovation der TU Graz (2024)

2023

KoLa – Koordinierungsfunktion des Verteilnetzes und Lastmanagement für den elektrifizierten Personenverkehr
Clausen, Sören; Soliman, Ramy; Dammasch, Arne; Schüssler, Gina; Rottenberger, Amelie; Nußbaum, Finn Ole; Steen, Anna-Lena; Becker, Christian; Eskander, Mina; Avdevicius, Edvard; Schulz, Detlef
in: Energie im Wandel: Forschungsperspektiven für Wasserstoff, Elektromobilität und Netzinnovationen, Ed. Schulz, Detlef (Helmut-Schmidt-Universität 2023)
Publisher DOI
KI-basiertes Energiemanagement für Schiffe mit Gleichspannungs-Energienetzen
Annuth, Robert; Nußbaum, Finn Ole; Becker, Christian
Technische Universität Hamburg (2023)
Open Access

Courses

Stud.IP

link to course in Stud.IP

Seminare.EIM: From non-classical quantum phenomena to quantum computing (CSBS, IIWBS, TMBS, CSMS, IIWMS)

Semester:

WiSe 23/24

Course type:

Seminar

Lecturer:

Dr. Anna Katharina Kirf, Prof. Dr. Martin Kliesch

Description:

There are many phenomena in quantum physics that cannot be explained with a classical understanding of Nature. These phenomena can be exploited to develop novel, powerful quantum information processing methods, which include the development of quantum computers. They can be used to run quantum algorithms with which one can efficiently solve problems that seem intractable with usual computation. Quantum computation has many potential applications, e.g., in material science, quantum chemistry, and combinatorial optimization. In this course, we aim to develop a deeper understanding of quantum phenomena. In order to do so, we start with some basics from classical probability and information theory. Then, we first see some non-classical phenomena, such as the no-cloning theorem (quantum information cannot be copied) and entanglement, to name just two basic examples. Potential topics for the end of the course are selected quantum algorithms, examples from quantum communication, and quantum error correction. This course has an emphasis on conceptual aspects of the topic, and we try to avoid technical discussions. Nevertheless, a solid mathematical understanding is required. The first part of the seminar requires no prior knowledge of quantum mechanics, which can be obtained in the course `Introduction to Quantum Computing' in parallel.

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: 7
Documents: 9

Supervised Theses

ongoing

2024

Ahmed, Taha (2024). Development of an iterative multi-agent coordination framework for congestion prevention in low voltage grids.
Busch, Marcel (2024). Entwicklung eines Netzmodells zur szenarienbasierten Untersuchung von Engpässen in heutigen und zukünftigen städtischen Verteilnetzen.
Lindner, Joost (2024). Entwicklung einer probabilistischen Lastprognose für die Niederspannungsebene elektrischer Verteilnetze.
Möller, Julius (2024). Untersuchung von Kennzahlen zur Bewertung der Diskriminierungsfreiheit von Engpassmanagementmaßnahmen.
Wilke, Jan Jakob (2024). Definition leistungsbasierter Netzregeln zur Engpassvermeidung in elektrischen Verteilnetzen.

completed

2024

Ming, Zhao (2024). Conceptual Design for a grid demonstrator for teaching purposes and development of a suitable distribution grid simulation.

2023

Kock am Brink, Jonas (2023). Entwicklung einer Engpassprognose für elektrische Verteilnetze mittels probabilistischer Verfahren.

Finn Nußbaum

Contact

Finn Nußbaum, M. Sc.

Research Project

KoLa

KoLa

Optimized Load Management and Flexibility Coordination for Electrified Urban Public Transport

Publications

TUHH Open Research (TORE)

2024

2023

Courses

Stud.IP

Supervised Theses

ongoing

2024

completed

2024

2023

TU Hamburg

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