Inaugural lectures in the STEM faculty at BTU

Inaugural lectures will be held by

• Prof. Thomas Flisgen (Theoretical Electrical Engineering)

A practical theory to answer application-oriented questions

Theoretical Electrical Engineering forms the foundation of all modern electrical and electronic systems - from energy transmission to Microelectronics. The lecture will repeat the basic
equations for describing electromagnetic fields and illustrate the relevance of electromagnetic field theory using concrete examples from everyday life. Challenges in
Theoretical Electrical Engineering will be discussed with the help of examples from research. The lecture ends with a brief outlook on the activities planned at the FG Theoretical Electrical Engineering.

• Prof. Krzysztof Piotrowski (Distributed Measurement Systems and Sensor Networks)

Data - Costs and Benefits - Theoretical Considerations on the Properties of Systems for Data Acquisition and Processing

People are increasingly dependent on data. Data forms the basis for the omnipresent optimisation of processes in the world around us. Often we are not even aware of these processes and the fact that they are monitored
or optimised, but in the future it will become even more so. This will lead to a change in the way we capture and process information. Aspects that may have been previously
neglected (such as energy efficiency or data protection) are becoming critical, with the requirements associated with them often conflicting with each other. In this lecture, the problems and research topics will be presented.

• Prof. Ivan Ndip (Antennas and Radio Frequency System Integration)

Antennas and radio frequency system integration for radar sensors, communication, HPC and AI applications

The Chair of Antennas and Radio Frequency System Integration researches and teaches in the fields of radio frequency technology and electromagnetic field theory, in particular in the areas of antennas and front-end modules,
packaging and system integration as well as signal integrity, power integrity and electromagnetic compatibility. Our goal is to explore innovative solutions that contribute significantly to the development of future Microelectronics
components and Systems, in particular for wireless communication (e.g. 6G), radar sensing, High Performance Computing (HPC) and Artificial Intelligence (AI) applications. This presentation gives an overview of research and teaching in our chair.