2019
DOI: 10.3390/app9153136
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Computation of Psycho-Acoustic Annoyance Using Deep Neural Networks

Abstract: Psycho-acoustic parameters have been extensively used to evaluate the discomfort or pleasure produced by the sounds in our environment. In this context, wireless acoustic sensor networks (WASNs) can be an interesting solution for monitoring subjective annoyance in certain soundscapes, since they can be used to register the evolution of such parameters in time and space. Unfortunately, the calculation of the psycho-acoustic parameters involved in common annoyance models implies a significant computational cost,… Show more

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Cited by 6 publications
(2 citation statements)
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“…Yu and Kang [39] explored the feasibility of using machine learning models to predict the sound landscape quality in urban open spaces by correlating various physical, behavioral, social, demographic and psychological factors. In [40], a convolutional neural network was implemented to estimate the psycho-acoustic annoyance Zwicker's model from an input audio signal. In contrast with these related works, in our research a neural network approach is used to predict future time values of acoustic parameters instead of estimating current time values.…”
Section: Related Workmentioning
confidence: 99%
“…Yu and Kang [39] explored the feasibility of using machine learning models to predict the sound landscape quality in urban open spaces by correlating various physical, behavioral, social, demographic and psychological factors. In [40], a convolutional neural network was implemented to estimate the psycho-acoustic annoyance Zwicker's model from an input audio signal. In contrast with these related works, in our research a neural network approach is used to predict future time values of acoustic parameters instead of estimating current time values.…”
Section: Related Workmentioning
confidence: 99%
“…Due to the development of artificial intelligence technology, many scholars have also tried to use neural network algorithms for a noise annoyance assessment. Jesus [ 15 ] used deep convolutional neural networks to calculate the psychoacoustic annoyance of urban noise, using 1 s noise segments as the input and the psychoacoustic annoyance values of noise as labels, and the model could give appropriate psychoacoustic annoyance assessment results after a long iteration. Song [ 16 ] relied on subjective listening experiments to obtain subjects’ perceived noise annoyance datasets and used recurrent neural networks to model perceived noise annoyance, which required complicated features such as MFCC (Mel Frequency Cepstral Coefficient, a kind of speech feature parameter) and noise loudness.…”
Section: Introductionmentioning
confidence: 99%