Brain dynamics that correlate with effects of learning on auditory distance perception

Accuracy in auditory distance perception can improve with practice and varies for sounds differing in familiarity. Here, listeners were trained to judge the distances of English, Bengali, and backwards speech sources pre-recorded at near (2-m) and far (30-m) distances. Listeners' accuracy was t...

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Published inFrontiers in neuroscience Vol. 8; p. 396
Main Authors Wisniewski, Matthew G., Mercado, Eduardo, Church, Barbara A., Gramann, Klaus, Makeig, Scott
Format Journal Article
LanguageEnglish
Published Switzerland Frontiers Research Foundation 09.12.2014
Frontiers Media S.A
Subjects
Acoustics
Auditory discrimination learning
Brain research
Cortex (frontal)
Depth perception
EEG
Electroencephalography
Electroencephalography (EEG)
event-related spectral perturbation (ERSP)
Familiarity
Hearing
Human performance
independent components analysis (ICA)
Neurosciences
Perceptual Learning
Psychology
ranging
Short term memory
Sound
Speech
Speech perception
Synchronization
Temporal cortex
United States > US
electroencephalography (EEG)
ranging
event-related spectral perturbation (ERSP)
familiarity
perceptual learning
independent component analysis (ICA)
Online AccessGet full text
ISSN1662-453X
1662-4548
1662-453X
DOI10.3389/fnins.2014.00396

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Abstract Accuracy in auditory distance perception can improve with practice and varies for sounds differing in familiarity. Here, listeners were trained to judge the distances of English, Bengali, and backwards speech sources pre-recorded at near (2-m) and far (30-m) distances. Listeners' accuracy was tested before and after training. Improvements from pre-test to post-test were greater for forward speech, demonstrating a learning advantage for forward speech sounds. Independent component (IC) processes identified in electroencephalographic (EEG) data collected during pre- and post-testing revealed three clusters of ICs across subjects with stimulus-locked spectral perturbations related to learning and accuracy. One cluster exhibited a transient stimulus-locked increase in 4-8 Hz power (theta event-related synchronization; ERS) that was smaller after training and largest for backwards speech. For a left temporal cluster, 8-12 Hz decreases in power (alpha event-related desynchronization; ERD) were greatest for English speech and less prominent after training. In contrast, a cluster of IC processes centered at or near anterior portions of the medial frontal cortex showed learning-related enhancement of sustained increases in 10-16 Hz power (upper-alpha/low-beta ERS). The degree of this enhancement was positively correlated with the degree of behavioral improvements. Results suggest that neural dynamics in non-auditory cortical areas support distance judgments. Further, frontal cortical networks associated with attentional and/or working memory processes appear to play a role in perceptual learning for source distance.
AbstractList Accuracy in auditory distance perception can improve with practice and varies for sounds differing in familiarity. Here, listeners were trained to judge the distances of English, Bengali, and backwards speech sources pre-recorded at near (2-m) and far (30-m) distances. Listeners' accuracy was tested before and after training. Improvements from pre-test to post-test were greater for forward speech, demonstrating a learning advantage for forward speech sounds. Independent component (IC) processes identified in electroencephalographic (EEG) data collected during pre- and post-testing revealed three clusters of ICs across subjects with stimulus-locked spectral perturbations related to learning and accuracy. One cluster exhibited a transient stimulus-locked increase in 4-8 Hz power (theta event-related synchronization; ERS) that was smaller after training and largest for backwards speech. For a left temporal cluster, 8-12 Hz decreases in power (alpha event-related desynchronization; ERD) were greatest for English speech and less prominent after training. In contrast, a cluster of IC processes centered at or near anterior portions of the medial frontal cortex showed learning-related enhancement of sustained increases in 10-16 Hz power (upper-alpha/low-beta ERS). The degree of this enhancement was positively correlated with the degree of behavioral improvements. Results suggest that neural dynamics in non-auditory cortical areas support distance judgments. Further, frontal cortical networks associated with attentional and/or working memory processes appear to play a role in perceptual learning for source distance.
Accuracy in auditory distance perception can improve with practice and varies for sounds differing in familiarity. Here, listeners were trained to judge the distances of English, Bengali, and backwards speech sources pre-recorded at near (2-m) and far (30-m) distances. Listeners' accuracy was tested before and after training. Improvements from pre-test to post-test were greater for forward speech, demonstrating a learning advantage for forward speech sounds. Independent component (IC) processes identified in electroencephalographic (EEG) data collected during pre- and post-testing revealed three clusters of ICs across subjects with stimulus-locked spectral perturbations related to learning and accuracy. One cluster exhibited a transient stimulus-locked increase in 4-8 Hz power (theta event-related synchronization; ERS) that was smaller after training and largest for backwards speech. For a left temporal cluster, 8-12 Hz decreases in power (alpha event-related desynchronization; ERD) were greatest for English speech and less prominent after training. In contrast, a cluster of IC processes centered at or near anterior portions of the medial frontal cortex showed learning-related enhancement of sustained increases in 10-16 Hz power (upper-alpha/low-beta ERS). The degree of this enhancement was positively correlated with the degree of behavioral improvements. Results suggest that neural dynamics in non-auditory cortical areas support distance judgments. Further, frontal cortical networks associated with attentional and/or working memory processes appear to play a role in perceptual learning for source distance.Accuracy in auditory distance perception can improve with practice and varies for sounds differing in familiarity. Here, listeners were trained to judge the distances of English, Bengali, and backwards speech sources pre-recorded at near (2-m) and far (30-m) distances. Listeners' accuracy was tested before and after training. Improvements from pre-test to post-test were greater for forward speech, demonstrating a learning advantage for forward speech sounds. Independent component (IC) processes identified in electroencephalographic (EEG) data collected during pre- and post-testing revealed three clusters of ICs across subjects with stimulus-locked spectral perturbations related to learning and accuracy. One cluster exhibited a transient stimulus-locked increase in 4-8 Hz power (theta event-related synchronization; ERS) that was smaller after training and largest for backwards speech. For a left temporal cluster, 8-12 Hz decreases in power (alpha event-related desynchronization; ERD) were greatest for English speech and less prominent after training. In contrast, a cluster of IC processes centered at or near anterior portions of the medial frontal cortex showed learning-related enhancement of sustained increases in 10-16 Hz power (upper-alpha/low-beta ERS). The degree of this enhancement was positively correlated with the degree of behavioral improvements. Results suggest that neural dynamics in non-auditory cortical areas support distance judgments. Further, frontal cortical networks associated with attentional and/or working memory processes appear to play a role in perceptual learning for source distance.
Author Gramann, Klaus
Church, Barbara A.
Mercado, Eduardo
Makeig, Scott
Wisniewski, Matthew G.
AuthorAffiliation 2 Department of Psychology, University at Buffalo, The State University of New York Buffalo, NY, USA
1 711th Human Performance Wing, U. S. Air Force Research Laboratory Wright-Patterson Air Force Base, OH, USA
3 Biological Psychology and Neuroergonomics, Berlin Institute of Technology Berlin, Germany
4 Swartz Center for Computational Neuroscience, Institute for Neural Computation, University of California, San Diego San Diego, CA, USA
AuthorAffiliation_xml – name: 3 Biological Psychology and Neuroergonomics, Berlin Institute of Technology Berlin, Germany
– name: 1 711th Human Performance Wing, U. S. Air Force Research Laboratory Wright-Patterson Air Force Base, OH, USA
– name: 2 Department of Psychology, University at Buffalo, The State University of New York Buffalo, NY, USA
– name: 4 Swartz Center for Computational Neuroscience, Institute for Neural Computation, University of California, San Diego San Diego, CA, USA
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  givenname: Matthew G.
  surname: Wisniewski
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– sequence: 2
  givenname: Eduardo
  surname: Mercado
  fullname: Mercado, Eduardo
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  givenname: Barbara A.
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Keywords electroencephalography (EEG)
ranging
event-related spectral perturbation (ERSP)
familiarity
perceptual learning
independent component analysis (ICA)
Language English
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Edited by: Guillaume Andeol, Institut de Recherche Biomédicale des Armées, France
Reviewed by: Ross K. Maddox, University of Washington, USA; Jyrki Ahveninen, Massachusetts General Hospital, USA
This article was submitted to Auditory Cognitive Neuroscience, a section of the journal Frontiers in Neuroscience.
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Snippet Accuracy in auditory distance perception can improve with practice and varies for sounds differing in familiarity. Here, listeners were trained to judge the...
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StartPage 396
SubjectTerms Acoustics
Auditory discrimination learning
Brain research
Cortex (frontal)
Depth perception
EEG
Electroencephalography
Electroencephalography (EEG)
event-related spectral perturbation (ERSP)
Familiarity
Hearing
Human performance
independent components analysis (ICA)
Neurosciences
Perceptual Learning
Psychology
ranging
Short term memory
Sound
Speech
Speech perception
Synchronization
Temporal cortex
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Title Brain dynamics that correlate with effects of learning on auditory distance perception
URI https://www.ncbi.nlm.nih.gov/pubmed/25538550
https://www.proquest.com/docview/2305092478
https://www.proquest.com/docview/1640481478
https://www.proquest.com/docview/1642631550
https://pubmed.ncbi.nlm.nih.gov/PMC4260497
https://doaj.org/article/eef7a078bb494943b4ef5bd207230072
Volume 8
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