Modelling the emergence and dynamics of perceptual organisation in auditory streaming

Many sound sources can only be recognised from the pattern of sounds they emit, and not from the individual sound events that make up their emission sequences. Auditory scene analysis addresses the difficult task of interpreting the sound world in terms of an unknown number of discrete sound sources...

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Published in:PLoS computational biology 2013-03, Vol.9 (3), p.e1002925-e1002925
Main Authors: Mill, Robert W, Bőhm, Tamás M, Bendixen, Alexandra, Winkler, István, Denham, Susan L
Format: Article
Language:English
Subjects:
Acoustic nerve
Acoustic Stimulation
Adolescent
Adult
Algorithms
Auditory perception
Auditory Perception - physiology
Biology
Competition
Computer Simulation
Experiments
Female
Humans
Male
Models, Neurological
Models, Statistical
Neurophysiology
Physiological aspects
Social and Behavioral Sciences
Sound
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creator Mill, Robert W
Bőhm, Tamás M
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description Many sound sources can only be recognised from the pattern of sounds they emit, and not from the individual sound events that make up their emission sequences. Auditory scene analysis addresses the difficult task of interpreting the sound world in terms of an unknown number of discrete sound sources (causes) with possibly overlapping signals, and therefore of associating each event with the appropriate source. There are potentially many different ways in which incoming events can be assigned to different causes, which means that the auditory system has to choose between them. This problem has been studied for many years using the auditory streaming paradigm, and recently it has become apparent that instead of making one fixed perceptual decision, given sufficient time, auditory perception switches back and forth between the alternatives-a phenomenon known as perceptual bi- or multi-stability. We propose a new model of auditory scene analysis at the core of which is a process that seeks to discover predictable patterns in the ongoing sound sequence. Representations of predictable fragments are created on the fly, and are maintained, strengthened or weakened on the basis of their predictive success, and conflict with other representations. Auditory perceptual organisation emerges spontaneously from the nature of the competition between these representations. We present detailed comparisons between the model simulations and data from an auditory streaming experiment, and show that the model accounts for many important findings, including: the emergence of, and switching between, alternative organisations; the influence of stimulus parameters on perceptual dominance, switching rate and perceptual phase durations; and the build-up of auditory streaming. The principal contribution of the model is to show that a two-stage process of pattern discovery and competition between incompatible patterns can account for both the contents (perceptual organisations) and the dynamics of human perception in auditory streaming.
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subjects Acoustic nerve
Acoustic Stimulation
Adolescent
Adult
Algorithms
Auditory perception
Auditory Perception - physiology
Biology
Competition
Computer Simulation
Experiments
Female
Humans
Male
Models, Neurological
Models, Statistical
Neurophysiology
Physiological aspects
Social and Behavioral Sciences
Sound
title Modelling the emergence and dynamics of perceptual organisation in auditory streaming
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