Audio Lab

   

 

In our audio lab we are able to do various envirenmental simulations such as acoustic simulation of automotive environments, train stations, or reverberant environments such as churches or large production facilities. Acoustic damping is mounted on each wall as well as on the ceiling. The floor, however, has no damping material (only carpet) in order to be able to put our research cars inside. For a more detailed view, please take a look at the 360° view.

 

Medical Lab

   

 

In our medical lab we mainly focus on electric and magentic measurements with high temporal resolution, which means in detail electroencephalography (EEG), electroneurography (ENG), and electrocardiography (ECG) as well as their magnetic couterparts, magnetoenecphalography (MEG), magnetocardiography (MCG), and magnetoneurography (MNG). In addition, the lab is equipped with about 30 flat panel loudspeakers in order to simulate several environments for patients and probands. For a more detailed view, please take a look at the 360° view.

 

Automotive Lab

   

 

In our automotive lab we focus on extensions on and in our research cars. For simulation of realtistic environments we have our own driving simulator with high resolution video and a so-called window loudspeaker system. For a more detailed view, please take a look at the 360° view.

 

Magnetoelectric Lab

   

 

In our magnetoelectric lab we test our algorithms designed for magnetocardiographic and magnetoneurographic analyses. The lab is magnetically shielded. This allows us to do "clear" magnetoelectric measurments on patients and probands. For a more detailed view, please take a look at the 360° view.

Recent Publications

P. Durdaut, J. Reermann, S. Zabel, Ch. Kirchhof, E. Quandt, F. Faupel, G. Schmidt, R. Knöchel, and M. Höft: Modeling and Analysis of Noise Sources for Thin-Film Magnetoelectric Sensors Based on the Delta-E Effect, IEEE Transactions on Instrumentation and Measurement, published online, 2017

P. Durdaut, S. Salzer, J. Reermann, V. Röbisch, J. McCord, D. Meyners, E. Quandt, G. Schmidt, R. Knöchel, and M. Höft: Improved Magnetic Frequency Conversion Approach for Magnetoelectric Sensors, IEEE Sensors Letters, published online, 2017

 

Website News

18.06.2017: Page about KiRAT news added (also visible in KiRAT).

31.05.2017: Some pictures added.

23.04.2017: Time line for the lecture "Adaptive Filters" added.

13.04.2017: List of PhD theses added.

Contact

Prof. Dr.-Ing. Gerhard Schmidt

E-Mail: gus@tf.uni-kiel.de

Christian-Albrechts-Universität zu Kiel
Faculty of Engineering
Institute for Electrical Engineering and Information Engineering
Digital Signal Processing and System Theory

Kaiserstr. 2
24143 Kiel, Germany

Recent News

Alexej Namenas - A New Guy in the Team

In June Alexej Namenas started in the DSS Team. He will work on real-time tracking algorithms for SONAR applications. Alexej has done both theses (Bachelor and Master) with us. The Bachelor thesis in audio processing (beamforming) and the Master thesis in the medical field (real-time electro- and magnetocardiography). In addition, he has intership erperience in SONAR processing.

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