Physiology and Modeling of Auditory Perception

Die Arbeitsgruppe "Physiology and Modeling of Auditory Perception" wurde zum 16.09.2013 am Department für Medizinische Physik und Akustik der Carl-von-Ossietzky-Universität Oldenburg im Rahmen des Exzellenzclusters "Hearing4all" eingerichtet.

Zum 01.10.2016 folgte die Leiterin der Arbeitsgruppe einem Ruf an die Universität Gent.


Research Focus

We focus on topics related to sound encoding in the normal and impaired auditory system. The approach is to probe the auditory system along its ascending pathway to understand what determines performance in psycho-acoustical tasks or speech perception. By combining physiological measures such as EEG and otoacoustic emissions with psychoacoustics and computational models, we can look at problems from different angles. This interdisciplinary approach is challenging, but very efficient and fun.

Model Code

Verhulst et al. (2012): Nonlinear time-domain cochlear model for transient stimulation and human otoacoustic emission. Download


Prof. Dr. Sarah Verhulst                                                                                             

Hearing Technology at WAVES
Dept. of Information Technology
Ghent University
iGent Tower,Technologiepark - Zwijnaarde 15
9052 Gent, BE
Tel. +32 9 33 14 844


Markus Garrett                                                                                         

E-Mail :      
Telefon :   +49 441 798-3588
Fax :        +49 441 798-3902
Büro :      W30 1-107

Wissenschaftliche / Studentische Hilfskräfte

Graduated Students

Technical University of Denmark:
MSc Federica Bianchi (2012)
MSc Kristian Gøtsche-Rasmussen (2013)
MSc Roi Hansen (2014)

Oldenburg University:
MSc Patrycja Piktel (2014)
MSc Stefan Raufer (2014)
MSc Sabrina Pieper (2015)
MSc Markus Pelz (2016)



  • Oldenburg University: Post-Doc Amin Saremi: Comparison of Auditory Models
  • Technical University of Denmark (Prof. Santurette): Interactions between otoacoustic emissions and pitch perception (Hansen et al., 2014).
  • Harvard Medical School (Prof. Shera): Generator mechanisms of otoacoustic emissions and their applications to assessing hearing status (Verhulst et al., 2011a, 2011b, 2012; Verhulst and Shera, in press)
  • Boston University (Prof. Shinn-Cunningham): Modeling of experimental findings, and continued model development with Dr. Bharadwaj and G. Mehraei (Verhulst et al., in review).
  • Aalto University (Prof. Pulkki): Improved computation methods to solve auditory periphery models accurately and fast (Altoè et al., 2014).
(Stand: 29.05.2024)  | 
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