Title

Multimodal Perceptual Training for Improving Spatial Auditory Performance in Blind and Sighted Listeners

Journal title

Archives of Acoustics

Yearbook

2015

Volume

vol. 40

Issue

No 4

Authors

Bălan, Oana ; Moldoveanu, Alin ; Moldoveanu, Florica

Keywords

front-back confusions ; HRTF ; sound localization ; training ; virtual auditory environment

Divisions of PAS

Nauki Techniczne

Coverage

491-502

Publisher

Polish Academy of Sciences, Institute of Fundamental Technological Research, Committee on Acoustics

Date

2015[2015.01.01 AD - 2015.12.31 AD]

Type

Artykuły / Articles

Identifier

DOI: 10.1515/aoa-2015-0049

Source

Archives of Acoustics; 2015; vol. 40; No 4; 491-502

References

Honda (2007), Transfer effects on sound localization performances from playing a virtual threedimensional auditory game, Appl Acoustics, 68. ; Zahorik (2006), Perceptual recalibration in human sound localization : Learning to remediate frontback reversals, Soc Am, 120, doi.org/10.1121/1.2208429 ; Katz (2011), Spatial Audio Applied to Research with the Blind Advances in Sound Localization Dr ISBN Available at : http www intechopen com books / advances - in - soundlocalization / spatial - audio - applied - to - research - with - the - blind, InTech, 978. ; Bogusz (2012), Investigation of Performance in Selected Psychoacoustic Tasks by Visually Impaired Children and Teenagers, Acta Physica Polonica A, 19, 121. ; Lessard (1998), Early - blind human subjects localize sound sources better than sighted subjects, Nature, 395. ; Furmann (2013), Effect of sound reproduction method on performance in sound source localization tasks by visually impaired and normal sighted subjects, Acta Physica Polonica A, 6, 123. ; Bogusz (2012), Performance in pitch memory task by visually handicapped children and youths, Archives of Acoustics, 37. ; Zwiers (2001), Two - dimensional sound - localization behavior of early - blind humans, Exp Brain Res, 140. ; Csapó (2013), Overview of auditory representations in human - machine interfaces, Journal ACM Computing Surveys, 46. ; Parseihian (2012), Rapid HeadRelated Transfer Function adaptation using a virtual auditory environment, Soc Am, 131, doi.org/10.1121/1.3687448 ; Dellepiane (2008), Reconstructing head models from photographs for individualized - audio processing, Comput Graph Forum, 27, 1719, doi.org/10.1111/j.1467-8659.2008.01316.x ; Mendonça (2014), A review on auditory space adaptations to altered head - related cues, Front, 2019, doi.org/10.3389/fnins.2014.00219 ; Bogusz (2015), Results of Auditory Training for Blind and Visually Handicapped Children and Adolescents, Acta Physica Polonica A, 127. ; Majdak (2010), D Localization of Virtual Sound Sources : Effects of Visual Environment Pointing Method and Training, Atten Percept Psychophys, 3, 72. ; Honda (2013), Effects of head movement and proprioceptive feedback in training of sound localization, Perception, 4, 253, doi.org/10.1068/i0522 ; King (2011), Neural circuits underlying adaptation and learning in the perception of auditory space Nov, Neurosci Biobehav Rev, 35. ; Doucet (2005), Blind subjects process auditory spectral cues more efficiently than sighted individuals Jan, Exp Brain Res, 160.