Technische Universiteit Delft, Sectie Akoestische Beeldvorming en Geluidbeheersing
Contactinformatie: www.ist.tudelft.nl/ak 

Recent promotieonderzoek in de Geluidbeheersing:

Jasper van Dorp Schuitman 11-2006 t/m 12-2010
Contactpersoon TUD: dr.ir. D. de Vries

Auditory Modeling for Assessing Room Acoustics (AMARA)
The objective parameters commonly used to assess the quality of room acoustics have several shortcomings such that their predictive potential is limited. Therefore, new parameters were developed using the outputs of a binaural, nonlinear auditory model. Results from various listening tests show that these parameters can have a high correlation with the human perception of various aspects of room acoustics. Furthermore, using the proposed framework the acoustics of a room can be assessed by evaluating arbitrary binaural recordings instead of measured impulse responses. This way, the temporal and spectral properties of the signal as well as the absolute sound pressure level are automatically taken into account in the assessment.

Anton Schlesinger 11-2006 t/m 12-2010
Contactpersoon TUD: dr.ir. M.M. Boone

Speech Intelligibility enhancement for Hearing Aids (SEHA)
The enhancement of speech intelligibility in noise is still the main subject in hearing aid research. Based on the advanced results obtained with the hearing glasses, in the present research the speech intelligibility is even further improved by the application of binaural post-filters. The functionalities of these filters are related to the principles of the auditory scene analysis. A statistical analysis of binaural cues in noise at the output of different hearing aids, the utilization of a Bayesian classifier in the source separation process and an evolutionary optimization against binaural models of speech intelligibility provides a principle understanding for the utilization of binaural post-filters in adverse environments. As listening ease and a fair amount of speech quality are mandatory in speech enhancement, tradeoffs between speech intelligibility and quality were studied in terms of the preservation of natural binaural cues and the suppression of musical noise.

Recent masteronderzoek in de Geluidbeheersing:

Simon de Koning
Contactpersonen TUD: dr.ir. M.M. Boone, dr.ir. D. de Vries, dr. L. Hörchens

In plates and plate-like structures, bending waves are the most important wave type with respect to acoustical radiation. In order to analyze the radiation from complex structures consisting of several plates, it is necessary to take the transmission of waves between the plates into account. At right-angled corners formed by two plates, both moments and forces can be transmitted from one plate to the other, leading to the generation of both bending and quasi-longitudinal waves in the receiving plate. The study of these wave types has applications in the context of building acoustics (flanking transmission) and the design of product encasings. The present research investigates the usage of bending waves for acoustical imaging in structures of coupled plates in order to locate sources that are not directly accessible. Images of source positions in one plate are formed, based on measurements in the other, which enables remote analysis by ‘looking around the corner’.