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Oldenburg

Digitalised Energy Systems University of Oldenburg

Degree
Master's
Language of instruction
English
International support
Welcome event Buddy programme Tutors Specialist counselling

First impressions

Location

Oldenburg

Intake

Winter semester

Duration

4 semesters

Study structure

Full-time

Mode of study

Fully on-site with voluntary online elements

Tuition fees per semester

No tuition fees

Application deadline

The application period starts on 15 March for the following winter semester.

The application deadline is 15 July, and the deadline for international applicants is 15 June.

Smart Grid, Decoded

Decoded: What is a "Smart Grid" and how does it work?

© Sebastian Lehnhoff

General information

About the course

Degree

Master of Science (MSc)

Course location

Oldenburg

Language of instruction

English

Languages

The language of instruction is English. Participants can also choose to write their Master's theses in German.

Description

To mitigate climate change is a matter of urgency, and thus, the energy transition represents one of the greatest technological and societal challenges of our time. The main challenge for a reliable, economically and ecologically feasible energy supply lies in the efficient, secure and reliable digitalisation of a technical system that integrates a huge, fluctuating, and difficult-to-forecast number of energy generators, consumers, storage facilities and grid components into a technically stable and financially viable overall system. In addition, the energy system is a critical infrastructure – the lifeline of modern societies. The failure or impairment of such a system would result in long lasting supply bottlenecks, significant disruptions to public safety or other dramatic effects.

This degree programme enables graduates to conduct research at research institutions or universities on the still missing elements of a successful digitalisation in the energy domain and thus on the implementation of the energy transition; or to occupy diverse positions in the energy industry due to the high practical relevance of the study content.

The Master's programme consists of a compulsory part, which teaches core competences in the field of designing and engineering of cyber-physical energy systems. These competences reflect the diversity of energy informatics systems and their fields of application and, together with various thematic specialisation options, allow for a meaningful deepening and specialisation with respect to individual interests. Different domain-specific application perspectives are taught independently so that students acquire broad application knowledge that goes beyond the specific energy system class. Societal and socio-technical issues are also represented as a cross-sectional topic.

The courses cover the following topics and more:

  • Smart grids
  • Renewable energy
  • (Distributed) Artificial intelligence
  • Co-simulation
  • Design and assessment of experiments
  • Control theory
  • Critical engineering
  • Energy markets
  • Requirements engineering
  • Modelling and control
  • Cyber-resilience

In a cross-group research project, which addresses control at the component level, communication, and also the use of agents in the context of optimisation in energy systems, the learned contents are consolidated and tested in practice.

Full-time / part-time

Full-time

Duration

4 semesters

Intake

Winter semester

Mode of study

Fully on-site with voluntary online elements

Application deadline

The application period starts on 15 March for the following winter semester.

The application deadline is 15 July, and the deadline for international applicants is 15 June.

Tuition fees per semester

No tuition fees

Combined Master's degree / PhD programme

No

Joint degree / double degree programme

No

Further details

Course organisation

The degree programme consists of the following content areas:

  • "Fundamental Competencies" with a scope of 54 CP teaches basic competencies from the areas of computer science, automation, and electrical engineering. This area is subdivided into "Automation and Electrical Engineering" and "Computer Science and Energy Informatics" to reflect the interdisciplinary nature of the degree programme, which maps the aspects that are required to develop and analyse necessary system intelligence in the energy system. The courses from both areas are therefore also strongly interlinked in terms of content in order to bring together practical skills from computer science, electrical engineering and an engineering approach in designing cyber-physical energy systems right from the start.
  • "Foundations of Digitalised Energy Systems" with a scope of 36 CP aims to impart competencies and knowledge in the future field of digitalised energy systems. This area is subdivided into "Digitalised Energy System Automation, Control and Optimisation" and "Digitalised Energy System Design and Assessment" in order to take into account the different technical system classes with their respective specific design and analysis methods. The third subsection, "Innovation Topics and Smart Grids", reflects the different domain-specific application perspectives and offers insights into current developments and research topics.
  • The Master's thesis module (30 CP)

A Diploma supplement will be issued

No

International elements

  • International guest lecturers
  • Specialist literature in other languages
  • Language training provided
  • Projects with partners in Germany and abroad
  • International comparisons and thematic reference to the international context

Integrated internships

A research project can be carried out in collaboration with national and international research institutes. Programme advisers will assist students in finding appropriate places.

Course-specific, integrated German language courses

No

Course-specific, integrated English language courses

Yes

Online learning

Pace of course

Instructor-led (Specific due dates for lectures/assignments/exams)

Phase(s) of attendance in Germany

Yes, compulsory

Costs & requirements

Costs

Tuition fees per semester

No tuition fees

Semester contribution

Approx. 400 EUR per semester

Costs of living

You should expect to spend about 950 EUR per month to cover personal expenses (accommodation, health insurance, food).

Requirements

Academic admission requirements

A Bachelor's degree or an equivalent degree in computer science, business information systems, engineering, electrical engineering or a suitable previous information technology degree programme with a predominantly technical and information technology component, or a comparable degree programme with a minimum of 180 credit points at a German university or at a university belonging to one of the Bologna signatory states

Technical aptitude is demonstrated by:

  • Knowledge in object-oriented modelling and programming (minimum of 5 CP)
  • Information processing (minimum of 5 CP)
  • Mathematics, esp. linear algebra and analysis (minimum of 10 credits)

All applicants have to register on uni-assist and upload all their documents.

The latest information can be found on the following website: https://uol.de/en/course-of-study/digitalised-energy-systems-master-630.

Language requirements

Applicants must provide proof of their English language skills if they are not native English speakers.

English language skills must be on level B2 according to the Common European Framework of Reference for Languages (CEFR).

Application deadline

The application period starts on 15 March for the following winter semester.

The application deadline is 15 July, and the deadline for international applicants is 15 June.

Financing information

Funding opportunities within the institution

No

Possibility of finding part-time employment

Students are permitted to work alongside their studies. If you are a student from a non-EU country, you are allowed to work 120 full or 240 half workdays per year.

Additional support

Accommodation

Affordable accommodation between 250 and 450 EUR per month is available in halls of residence or private flats within walking or cycling distance to the campus.

Support for international students and doctoral candidates

  • Welcome event
  • Buddy programme
  • Tutors
  • Specialist counselling

General services and support for international students and doctoral candidates

Around 1,250 international students are currently studying at the university. The university offers a wide range of support services at various levels. Personal and social support in everyday life at the university is provided by tutors of the International Student Office, who can be visited daily or contacted by e-mail at any time. Furthermore, the university offers cultural events for international students, including excursions to different cities in Germany and a summer festival on the campus. For foreign students coming to Oldenburg's universities, the "Studentenwerk" offers a tutoring programme in which students from different countries supervise their international fellow students, providing important integration assistance.

In order to improve social integration and to help students cope with everyday life, German courses are offered to international students and applicants during the semester. These courses are offered at the Language Centre.

Contact

University of Oldenburg

Department of Computing Science

Dr Jörg Bremer
Ammerländer Heerstr. 114–118
26129 Oldenburg
Tel.: +49 4419722736

Get in touch

About us

University of Oldenburg

Carl von Ossietzky University of Oldenburg was founded in 1973, making it one of Germany‘s young universities. Its goal is to find answers to the major challenges society faces in the 21st century through interdisciplinary, cutting-edge research.

Location

Oldenburg looks back on more than 900 years of history and is now, with its +170,000 inhabitants, a centre of cultural, scientific and economic life in the region of North-West Germany.

Oldenburg is a good place to live. A mix of entertainment and culture – bars, restaurants and trendy venues as well as theatres and a number of museums – create a big-city feeling. Yet it is a safe place where you can get around easily on your bicycle, as most students do. The city has a well-developed bus system. Student fees cover public transport in the city itself and all over Lower Saxony. The green city is also directly connected to the European rail network.

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