Seminar of the Master Applied Research in Engineering Sciences
Preamble of the Organizers
The Master of Applied Research program gives its students the opportunity to work in depth on a research topic for a period of three semesters, culminating in a Master of Science degree. The students perform as members of a research team under the guidance of a professor in charge of the scientific project. Student’s research work is divided into project sections and the master thesis. Accompanying lectures are selected in the context of the research subject from established master programs.
Due to the Covid 19 pandemic the Applied Research Conference ARC 2020, which was originally scheduled as the tenth conference of the Master of Applied Research program, could not be held as planned as a joint event involving all cooperating Universities of Applied Sciences. Instead, several smaller seminar events at each of the cooperating Universities of Applied Sciences are going to be held. The seminar at Deggendorf Institute of Technology (DIT) is scheduled for July 6th and 7th, 2020 as an online event.
During the seminar, the students of the program are able to submit their research project results as oral presentation and as formal paper, which are published on the website of DIT. Participation in the seminar gives the students an opportunity to share their research work. The feedback they receive allows them to reassess their work, gain motivation and promote their personal and academic progress.
Special thanks are due to the colleagues who permanently support the development of the study programme by offering future-oriented research topics. We are all aware of the additional workload involved in promoting and fostering the progress and development of this research oriented master program. The fruits of their academic work will not only be success in research, but it will also provide young people with vocational guidance and support in their academic and innovative growth as young engineers.
Deggendorf, July 2020
Prof. Dr.-Ing. Werner Bogner
(Coordinator of the Master Applied Research Program)
Prof. Dr.-Ing. Reinhard Schlosser
(Dean of the Faculty of Electrical Engineering and Media Technology)
Time |
|
Name |
Topic |
08:00 – 08:20 |
Block 1 |
Sabine Gröller |
Compressing the user influence in tightening technology through neural networks |
08:20 – 08:40 |
Bernhard Haderer |
||
08:40 – 09:00 |
Roland Schöninger |
SHORT - Requirements specification for a secure development process |
|
09:00 –09:20 |
Peter Straubinger |
Analysis of Future Approaches for E/E-Architectures and Setup of a Demonstrator for Realistic In-Vehicle Communication |
|
09:20 - 10:00 |
Coffee Break |
||
10:00 – 10:20 |
Block 2 |
Dennis Gerdts |
Development and Construction of a Hand skeleton as an input device for Virtual Reality |
10:20 – 10:40 |
Markus Böhmisch |
Feasibility of the DEPA concept in terms of stability |
|
10:40 – 11:00 |
Michele Guidolin |
Development of a cleaning and drying plant for precision optics |
|
11:00 – 11:20 |
|||
11:20 – 11:40 |
Kevin Kunze |
Cost-Effective Implementation of Air Filled SIWs on Printed Circuit Boards |
|
11:40 – 12:00 |
Florian Keck |
Cost-Effective Implementation of Filters in Millimeter Wave Range on Printed Circuit Boards |
|
12:00 – 13:00 |
Lunch Break |
||
13:00 – 13:20 |
Block 3 |
Alois Wenig |
Numerical analysis of the gear blank influence on the Transmission Error |
13:20 – 13:40 |
Stefanie Häusler |
||
13:40 – 14:00 |
Pia Lützen |
Contour-based Object Detection in Dynamic Thermal Images with Noisy Background |
|
14:00 – 14:20 |
Raphael Lukas |
Modelling of a Laser Rangefinding System |
|
14:20 – 14:40 |
Michael Schmid |
Development of an eddy current distance sensor for high temperature environments |
Time |
|
Name |
Topic |
08:00 – 08:20 |
Block 4 |
Benedikt Schloder |
Development of a sensor based on Surface Plasmon Resonance |
08:20 – 08:40 |
Florian Claßen |
Development of a scattering based indirect emitting surface for professional illumination applications |
|
08:40 – 09:00 |
Florian Czieslok |
Methods to characterize high system resistances of an in glass encapsulated graphene pressure sensor |
|
09:00 –09:20 |
Isabell Herer |
||
09:20 - 09:40 |
Stefan Holzner |
Developing a prototype for microwave assisted bending of fused silica |
|
09:40 – 10:00 |
Korbinian Kratzer |
Measurement of flow velocities of fluids by low-cost radar sensor HB100 |
|
10:00 – 11:00 |
Coffee Break |
||
11:00 – 11:20 |
Block 5 |
Andreas Schulitschenko |
Evaluation of mechanisms for providing a cryptographically secured time base |
11:20 – 11:40 |
Julia Krause |
Integration of a logic for decentralized track synchronization of autonomous systems and the comparison of election algorithms |
|
11:40 – 12:00 |
Marcel Glübert |
||
12:00 – 12:20 |
Michael Schötz |
Evaluation of PyTorch to solve constrained optimization problems |
|
12:20 - 12:40 |
Mario Altendorfer |
||
12:40 – 13:00 |
Simon Steiger |
Neural Network-based lane detection and pose estimation for autonomous driving |