Advanced Seminar High-Frequency Engineering

Lecturer (assistant)
TypeAdvanced seminar
Duration3 SWS
TermSommersemester 2019
Language of instructionGerman
Position within curriculaSee TUMonline
DatesSee TUMonline



In the framework of the Advanced Seminar High-Frequency Engineering, students will learn how to conduct a bibliographical research, and how to present their findings - both as a scientific paper and a presentation in the semestral symposium. The Seminar is divided into the following parts:

  1. Writing and Presentation Techniques
    The participants learn and practice interactively writing and presentation techniques, they conduct the bibliographical research on the selected topic supported by their advisor, and give a practice presentation for which feedback is provided.

  2. Preparation
    In the second part, the participants prepare a conference article (scientific paper with three pages) and a presentation.

  3. Symposium
    Eventually, the participants present their topic in the semestral symposium of the Advanced Seminar High-Frequency Engineering. Every talk is followed by a short discussion.

Undergraduate Students

Undergraduate students may participate by preponing the Advanced Seminar from the master program. There are many advantages: the expert knowledge gained on the topic can be used for a possible Bachelor's thesis. In addition, conducting a bibliographical research, writing a scientific article and giving a presentation are also part of the Bachelor's thesis project. Our Advanced Seminar prepares for these tasks.

Proposed Topics

Students are encouraged to address any supervisor with their own topic suggestions. A list of proposed topics can be found below.

Topic Advisor
Second Generation Wavelets for Solving Partial Differential Equations
Intergenerational Struggle?
Jonas Weindl
The Relation Between Electromagnetics and Acoustics
Different Quantities, the Same Equations?
Bernd Hofmann
Superdirectivity Antennas
Supergain or Superloss?
Josef Knapp
Complex Source Point Beams
Take Me to Imaginary Places
Josef Knapp
Near-Field Imaging Based on Surface Equivalent Current Methods1
How to find the sources when the fields are known
Arslan Azhar
Target Range-Angle Estimation using Frequency Diverse Arrays1
Range estimation and beam scanning without phase-shifters or phased-arrays
Arslan Azhar
Pulsed vs. FMCW Radar for automotive applications
Which technique suits best?
Björn Möhring
Phase Retrieval via Neural Networks
Algorithms Grow Brains
Alexander Paulus
Evaluation of Highly Oscillatory Integrals in Physical Optics by using Levin Method1
One Formula to Solve Them All
Mehmet Taygur
Singular Surface Integral Evaluation via Line Integrals
An Application of Gauss's Theorem
Jonas Kornprobst
Unmanned Aerial Vehicle Antenna Measurement
Near-field measurements with a drone
Fabian Faul
Detecting Small Objects in Environments of Large Clutter
Finding the Needle in the Haystack
Daniel Ostrzyharczik

¹ only in English

Date Content
Writing- and
Presentation Techniques
24.04.2019 Introduction, Theoretical Input I
22.05.2019 Theoretical Input II
29.05.2019 Theoretical Input III
05.06.2019 Theoretical Input IV
12.06.2019 Theoretical Input V
19.06.2019 Preparation for Practice Presentations
26.06.2019 Practice Presentations I
03.07.2019 Practice Presentations II
01.07.2019 Draft Deadline
15.07.2019 Final Deadline
17.07.2019 Final Presentations I
24.07.2019 Final Presentations II

On all dates, attendance is mandatory. The article draft has to be send to the day of the draft deadline. The  final article has to be send to the day of the final deadline.


Final presentation
(20 min talk + 10 min colloquium)
70 %
Scientific article
(three pages w/o bibliography)
30 %
Practice presentation Pass/fail credit requirement