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Selection of a sound propagation model for noise annoyance prediction: A perceptual approach

Vallin, Pierre-Augustin and Marquis-Favrea, Catherine and Gille, Laure-Anne and Ellermeier, Wolfgang (2018):
Selection of a sound propagation model for noise annoyance prediction: A perceptual approach.
143, In: The Journal of the Acoustical Society of America, (1283), DOI: 10.1121/1.5025849,
[Online-Edition: https://doi.org/10.1121/1.5025849],
[Article]

Abstract

Sound propagation effects need to be considered in studies dealing with the perception of annoying auditory sensations evoked by transportation noise. Thus, in a listening test requiring participants to make dissimilarity ratings, the effects of several feasible propagation models are compared to actual recordings of vehicle noises made at a given distance. As a result, a model taking into account first order reflections without any phase term is found to be the most appropriate model for simulating road traffic noise propagation in an urban environment from a perceptual point of view.

Item Type: Article
Erschienen: 2018
Creators: Vallin, Pierre-Augustin and Marquis-Favrea, Catherine and Gille, Laure-Anne and Ellermeier, Wolfgang
Title: Selection of a sound propagation model for noise annoyance prediction: A perceptual approach
Language: English
Abstract:

Sound propagation effects need to be considered in studies dealing with the perception of annoying auditory sensations evoked by transportation noise. Thus, in a listening test requiring participants to make dissimilarity ratings, the effects of several feasible propagation models are compared to actual recordings of vehicle noises made at a given distance. As a result, a model taking into account first order reflections without any phase term is found to be the most appropriate model for simulating road traffic noise propagation in an urban environment from a perceptual point of view.

Journal or Publication Title: The Journal of the Acoustical Society of America
Volume: 143
Number: 1283
Uncontrolled Keywords: Linear acoustics, Psychological acoustics, Signal processing, Audiometry, Hearing, Acoustic transducers, Acoustic wave propagation, Acoustic waves
Divisions: 03 Department of Human Sciences > Institute for Psychology > Applied Cognitive Psychology
03 Department of Human Sciences > Institute for Psychology
03 Department of Human Sciences
Date Deposited: 15 Mar 2018 10:18
DOI: 10.1121/1.5025849
Official URL: https://doi.org/10.1121/1.5025849
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