After successful completion of the course, students are able to formulate and communicate information technology requirements in the context of smart grids. Students gain in-depth knowledge and solution competence for information technology methods and programming skills in the field of smart grids.
Students will also be able to independently develop solutions with targets for smart energy grids and test them using the example of an variable step-up transformer.
Teaching lecture for theory content.
Tutorials and tutorials to clarify questions for practical part.
Attention! Due to collissions with other lectures, the lecture is moved to 11:00 (starting time!).
The grading assessment of the course Information Technology in Smart Grids is based on the following parts: Theory examination, development of program code and oral presentation.
Compulsory attendance for examination block
Knowledge of Python is an advantage - the practical exercise is completed with Python. Necessary basics and sample codes will be explained and provided.