The Intelligent Electrical Power Grids (IEPG) section within the Faculty of Electrical Engineering, Mathematics and Computer Science at TU Delft has a very ambitious and diversified research programme covering major technological challenges concerning the operation and planning of future power grids. IEPG is building a new research programme on resilience of cyber-physical energy systems that includes cyber security for power grids. The doctoral candidate will conduct research on cyber security and resilience of cyber-physical energy systems to cyber attacks.

Within this programme, your research tasks are:

1. Work in the IEPG team and contribute to the development of a testbed for cyber security investigations at TU Delft.
2. Model cyber-physical systems that include the electrical power grid, communication infrastructures, and Operational Technologies (OT) for real-time grid monitoring and control.
3. Develop novel methods and prototype tools to assess the vulnerabilities of security controls and innovative technologies to secure the OT infrastructures for power grids.
4. Model, simulate, and emulate cyber attacks and assess their impact on power system operation and stability using the cyber security testbed.
5. Develop new technologies based on computational methods, machine learning, deep learning, and/or other Artificial Intelligence (AI) and computational intelligence techniques to detect, prevent, respond, and mitigate cyber attacks against power grids.

All methods, algorithms, and software tools developed in this research are part of a unified software platform for cyber security investigations and enhancement for power grids. This is developed and maintained by all team members using open-source software such as Python.

Within this programme, your other tasks are:

1. Support the programme manager to build the research programme on “Resilience of Cyber-Physical Energy Systems” at TU Delft.
2. Contribute to new project proposals to obtain external research funding.
3. Report the progress made via presentations, reports, and publications.

This is a four-year doctoral appointment jointly supervised by Assistant Professor Dr. Alex Stefanov and Professor Dr. Peter Palensky. The PhD fellowship will start in September/October 2019. It offers a great opportunity to participate in a cutting-edge research programme on cyber security of future, intelligent power grids involving strong academia – industry collaborations.

We are looking for excellent candidates with the following qualifications, knowledge, and skills:

• MSc and BSc degrees in Computer Science, Applied Mathematics, and/or Electrical Engineering with an emphasis on Electrical Power Systems.
• Strong knowledge of control theory and mathematics including complex algebra, numerical methods such as Newton-Raphson, differential algebraic equations, discrete systems, and probability theory and statistics.
• Strong knowledge of machine learning, deep learning, and artificial intelligence.
• Demonstrable experience with computer modelling and simulation.
• Experience in software development and coding skills in Python.
• You are independent, self-motivated, reliable, and eager to learn.
• Proficiency in English for effective communication, writing, and presentation.
• Ability to work in a project team and take leadership and responsibility for different research tasks.

TU Delft offers a customisable compensation package, a discount for health insurance and sport memberships, and a monthly work costs contribution. Flexible work schedules can be arranged. An International Children’s Centre offers childcare and an international primary school. Dual Career Services offers support to accompanying partners. Salary and benefits are in accordance with the Collective Labour Agreement for Dutch Universities. 

As a PhD candidate you will be enrolled in the TU Delft Graduate School. TU Delft Graduate School provides an inspiring research environment; an excellent team of supervisors, academic staff and a mentor; and a Doctoral Education Programme aimed at developing your transferable, discipline-related and research skills. Please visit www.tudelft.nl/phd for more information. 

Technische Universiteit Delft

Delft University of Technology (TU Delft) is a multifaceted institution offering education and carrying out research in the technical sciences at an internationally recognised level. Education, research and design are strongly oriented towards applicability. TU Delft develops technologies for future generations, focusing on sustainability, safety and economic vitality. At TU Delft you will work in an environment where technical sciences and society converge. TU Delft comprises eight faculties, unique laboratories, research institutes and schools.

Faculty Electrical Engineering, Mathematics and Computer Science

The Faculty of Electrical Engineering, Mathematics and Computer Science (EEMCS) is known worldwide for its high academic quality and the social relevance of its research programmes. The faculty’s excellent facilities accentuate its international position in teaching and research. Within this interdisciplinary and international setting the faculty employs more than 1100 employees, including about 400 graduate students and about 2100 students. Together, they work on a broad range of technical innovations in the fields of sustainable energy, telecommunications, microelectronics, embedded systems, computer and software engineering, interactive multimedia and applied mathematics. 

Research in the Department of Electrical Sustainable Energy is inspired by the technical, scientific and societal challenges originating from the transition towards a more sustainable society. Research at the TU Delft Department of Electrical Sustainable Energy focuses on three areas:

• Photovoltaic Materials and Devices
• DC Systems, Energy Conversion and Storage
• Intelligent Electrical Power Grids 

The Electrical Sustainable Energy Department provides expertise in each of these areas throughout the entire energy system chain. The Intelligent Electrical Power Grid (IEPG) group works on the future of our power system. The goal is to generate, transmit and use electrical energy in a highly reliable, efficient, stable, clean, and safe way. IEPG integrates new power technologies and smart controls, which interact with other systems and allow for more distributed and variable generation.