M. Sc. Christin Baasch

Room D-019
Kaiserstraße 2, 24143 Kiel, Germany
Phone: +49 431 880-6132
Telefax: +49 431 880-6128
E-mail: This email address is being protected from spambots. You need JavaScript enabled to view it.

Research: Analysis of Parkinson Speech

Morbus Parkinson is a wide spread disease especially in the age group above 50 years. Besides several motor disorders also speech disorders accompany this disease. The dysarthria expresses itself, among other symptoms, by a too low speech level and a mumbling voice. Probably due to a perception disorder, the patients do not realize their dysfunction in speech production.

While the motor disorders can already be treated well with different methods, like medical treatments or deep brain stimulation, the speech disorders are still not fully understood and difficult to treat. Besides this, the treatment of the motor defects often even worsens the speech disorder. Since the perception disorder, causing the dysarthria, is difficult to treat, there exist several approaches of speech therapies that try to improve the speech production of the patients. These therapies differ in the ideas of how to improve the patients speech. The success is dependent on the individual patient.

The investigation of the efficacy of these therapies has been and is still a very interesting research topic. In contrast, not yet established is the investigation of the origin and location of the problem in speech production. This would help to adapt the speech therapy to the specific needs of the individual patient. This can be realized by an evaluation of the patient’s speech using technical measures. Further, these measures can be used instead of auditive assessments to classify the severity of the patients dysarthria.

The goal is the development of a tool that is capable to perform such analyses. It includes the recording equipment that is needed to make reliable recordings of the patients, as well as a recording environment, implemented in a real-time signal processing toolkit, measures to evaluate the speech disorder, and, finally, the verification of the selected measures.

The hardware components should be simple to use and transport. Since one common symptom of Parkinson's disease is the tremor, the patients are moving during a recording session, such that the signal level is changed and level-based measures are not applicable anymore. Thus, a microphone array is needed to provide level-correct speech recordings.

To realize the level-correct recordings, an algorithm for speaker localization should be included in the recording environment. Besides, the analysis the system has the task to lead the patients through the recording session in an easy way. Finally, the evaluation of the recordings using technical measures is done. Therefore, newly developed measures as well as known measures like the vowel-space area, the A-weighted signal level, and the tube model of the human vocal tract can be used to locate the problem of speech production in the vocal tract.

To complete the speech-disorder analysis, also EEG recordings are necessary to perform a source analysis of the EEG recordings taken in parallel to the speech recordings and observe activity changes in different brain regions. These findings should then be related to the results of the speech analysis.

Related topics:

  • Speech analysis
  • Pattern recognition
  • EEG source analysis
  • Voice activity detection

Further interests:

  • Noise estimation
  • Adaptive filters
  • Real-time Digital Signal Processing

Short CV

2014 - current   Research assistant at the Christian-Albrechts-Universität zu Kiel, Kiel, Germany
2012 - 2014   M.Sc. in Electrical and Information Engineering and Business Administration at the Christian-Albrechts-Universität zu Kiel, Kiel, Germany
2008 - 2012   B.Sc. in Electrical and Information Engineering and Business Administration at the Christian-Albrechts-Universität zu Kiel, Kiel, Germany


C. Marquard, C. Baasch, M. Brodersen, O. Niebuhr, and G. Schmidt: Speech, Think, Act: A Phonetic Analysis of the Combinatorial Effects of Respiratory Mask, Physical and Cognitive Stress on Phonation and Articulation, Proc. DAGA, Kiel, Germany, 2017

C. Baasch, G. Schmidt, U. Heute, A. Nebel, and G. Deuschl: Parkinson-Sprachanalyse - Erweiterungen zum Qualitätsmerkmal Formantdreieck, Proc. DAGA, Kiel, Germany, open access, 2017

C. Baasch, G. Schmidt, U. Heute, A. Nebel, G. Deuschl: Parkinson-Speech Analysis: Methods and Aims, ITG Speech, October 2016

C. Baasch, W. Schmidt, G. Schmidt, U. Heute, A. Baumann, A. Nebel, G. Deuschl, T. von Eimeren: Stimmtherapie für Parkinsonsprache: Akustische Analyse der Wirksamkeit, ESSV 2016, Leipzig, Germany

L. Jaschke, C. Baasch, G. Schmidt, A. Nebel, G. Deuschl: Level-correct Speech Recordings for the Analysis of Parkinson Speech, DAGA 2016

A. Baumann, G. Hartwigsen, A. Nebel, S. Wolff, W. Schmidt, C. Baasch, G. Schmidt, G. Deuschl, K. E. Zeuner, and T. van Eimeren: Neural effects of Lee Silvermann Voice Treatment in Parkinson`s disease (Poster), Congress of the European Academy of Neurology, 2015, Berlin, Germany

V. K. Rajan, C. Baasch, G. Schmidt, M. Krini: Improvement in Listener Comfort Through Noise Shaping Using a Modified Wiener Filter Approach, Proc. ITG 2014, September 24-26, 2014, Erlangen, Germany

C. Baasch, V. K. Rajan, G. Schmidt, M. Krini: Low-Complexity Noise Power Spectral Density Estimation For Harsh Automobile Environments, Proc. International Workshop on Acoustic Signal Enhancement IWAENC 2014, Antibes, France

Internal PhD Students


Rasool Al-mafrachi
Christin Baasch
Analysis of Parkinson Speech
Christin Bald
Real-time Signal Processing for Magnetoelectric Sensors
Eric Elzenheimer
Medical Signal Processing
Marco Gimm
Tobias Hübschen
Instrumental Quality Assessment for Speech Communication Systems
Alexej Namenas
Cognitive-adaptive Target Detection and Tracking for SONAR Systems
Anton Namenas
Acoustic Environments and Evaluation of Communication Systems
Thorben Kaak
Real-time MIMO Signal Processing for Active SONAR Systems
Finn Spitz
Speech Analysis and Therapy for Parkinson Patients
Owe Wisch
Underwater Communication in Real-time MIMO-SONAR-Systems



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

New PhDs in the DSS Team

Since January this year we have two new PhD students in the team: Elke Warmerdam and Finn Spitz.

Elke is from Amsterdam and she works in the neurology department in the university hospital in the group of Prof. Maetzler. Her research topic is movement analysis of patients with neurologic disorders. Elke cooperates with us in signal processing related aspects of her research. Elke plays ...

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