Mirco Fabian Woidelko

M.Sc., M.A.
Research Assistant

Contact

Mirco Woidelko, M.Sc., M.A.
E-6 Elektrische Energietechnik
  • Elektrische Energietechnik
Office Hours
nach Vereinbarung
Harburger Schloßstraße 22a,
21079 Hamburg
Building HS22a, Room 2.004
Phone: +49 40 42878 4093
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Research Project

DisrupSys
Disruptive functions and technology for angle-based integrated grid operation in converter-dominated power systems with predominantly renewable energy supply

DisrupSys

Disruptive functions and technology for angle-based integrated grid operation in converter-dominated power systems with predominantly renewable energy supply

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

Publications

TUHH Open Research (TORE)

Courses

Stud.IP
link to course in Stud.IP Studip_icon
Secure Software Engineering (VL)
Subtitle:
This course is part of the module: Secure Software Engineering
Semester:
SoSe 24
Course type:
Lecture
Course number:
lv2667_s24
Lecturer:
Riccardo Scandariato, Ina Weigl, Dr. Nicolás Díaz Ferreyra, Catherine Tony, Quang Cuong Bui, Emanuele Iannone, Torge Hinrichs
Description:
  • Secure software development processes and maturity models
  • Techniques to define security requirements
  • Techniques to create, document and analyse the design of secure applications
  • Threat and risk analysis techniques
  • Security code reviews
  • Program repair techniques for security vulnerabilities
  • Privacy engineering
Performance accreditation:
m1682-2021 - Secure Software Engineering<ul><li>p1632-2021 - Secure Software Engineering: Klausur schriftlich</li></ul><br>m1682-2023 - Secure Software Engineering<ul><li>p1632-2021 - Secure Software Engineering: Klausur schriftlich</li><li>vl439-2023 - Voluntary Course Work Secure Software Engineering - Subject theoretical and practical work: Subject theoretical and practical work</li></ul>
ECTS credit points:
3
Stud.IP informationen about this course:
Home institute: E-22 Software Security
Registered participants in Stud.IP: 116
Documents: 18

Supervised Theses

ongoing
completed

2023

  • Babendererde, A. (2023). Regelung eines Umrichters zum Anschluss eines Wasserstoffspeicherkraftwerks an die Höchstspannungsebene.

2022

  • Lim, I. (2022). Modelling and Integration of a Hydrogen Storage Power Plant in the 10-Machine New-England Power System.

  • Lindner, J. (2022). Primärregelungskonzepte für einen Batteriepufferspeicher eines Wasserstoffspeicherkraftwerkes.

  • Rieckborn, N. (2022). Modellierung des Umwandlungsprozesses eines Wasserstoffspeicherkraftwerks.