Sonar Signal Processing

The video shows the application of KiRAT for a SONAR application, in particular for a realtime detecion of divers and ships. At the beginning an omnidirectional processing mode was activated and the correlation of the beamformer outputs was performed with the unprocessed send signals. Afterwards send beamforming was activated to show the increment of energy in a certain direction. Finally, the correlation was performed with a multitude of temporally spreaded send signals in order to account different hypothesis in terms of radial speed (Doppler). In that case the individual results are depicted in a variety of parallel plots.


Medical Signal Processing

The video shows the application of KiRAT for a medical application, in particular for electro- and magnetoneurography. The main objective of this modern technologies (electro- and also magnetoneurography) is to optimize the diagnostic accuracy of neuropathies by developing a spatially continuous scanning of nerves with sensor arrays. This approach will increase and also combine the spatial resolution and functional information. In summary, this will further improve the treatment. The electrical signal and also the nerve electromagnetic field of human nerve pulses are quite low. Peak amplitudes in the range of uV to mV and fT to pT can be achieved by using an external electric stimulation of the nerve. As the stimulus to the nerve can be repeated, the Signal-to-Noise-Ratio can be further improved by using enhanced low-noise adaptive averaging algorithms. This video presents a typical application of such averaging algorithms for electro- and magnetoneurography in real-time.


Parkinson Speech Recording

The video shows the application of KiRAT for Parkinson speech recordings. The main objective is to make speech recordings of Parkinson patients with different and freely designed test setups for later analysis of the Parkinson speech. This setup uses an extra window for the patient view, which shows simple instructions for the patient, to guide them through the recording session. The medical view is shown in the main window of KiRAT, which allows for more detailed adjustments of the tests. For example, tests can be enabled or disabled, a progressbar for the recording session is shown and a real-time plotter gives the possibility to observe the microphone signal while recording them. The test setup is freely designable via html pages. Thus, this functionality can easily be used for creating any kind of speech database.


In-car communication (ICC) system and the plotter

The video shows the application of KiRAT for in-car communication (ICC) and the capabilities of its plotter. ICC is an highly complex task with many algorithms, which depend on various parameters. After installing such a system in a car it needs to be adapted for the car's conditions. We call this tuning. However, a value change of parameters can cause a different or unexpected behavior. Therefore, the plotter is a very useful tool for monitoring. Signals and parameters can be watched in the time and the frequency domain. There is also an opportunity to plot spectrograms. For complex algorithms many signals and parameters must be watched in parallel. For this the plotter offers an free arrangeable window, in which as many plotters as needed can be added during the run time.

Website News

13.08.2017: New Gas e.V. sections (e.g. pictures or prices) added.

05.08.2017: The first "slide carousel" added.

03.08.2017: Started with the RED project. Will be ready in a few years ...

30.07.2017: List of PhD theses updated and extended.

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



Prof. Dr.-Ing. Gerhard Schmidt


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

Jens Reermann Defended his Dissertation with Distinction

On Friday, 21st of June, Jens Reermann defended his research on signals processing for magnetoelectric sensor systems very successfully. After 90 minutes of talk and question time he finished his PhD with distinction. Congratulations, Jens, from the entire DSS team.

Jens worked for about three and a half years - as part of the collaborative research center (SFB) 1261 - on all kinds of signal ...

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