Effects of Bone Vibrator Position on Auditory Spatial Perception Tasks

Objective: This study assessed listeners’ ability to localize spatially differentiated virtual audio signals delivered by bone conduction (BC) vibrators and circumaural air conduction (AC) headphones. Background: Although the skull offers little intracranial sound wave attenuation, previous studies...

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Bibliographic Details
Published in:Human factors 2015-12, Vol.57 (8), p.1443-1458
Main Authors: McBride, Maranda, Tran, Phuong, Pollard, Kimberly A., Letowski, Tomasz, McMillan, Garnett P.
Format: Article
Language:English
Subjects:
Adolescent
Adult
Air conditioning
Audio signals
Bone Conduction - physiology
Bones
Ears & hearing
Effects
Female
Headphones
Human factors research
Humans
Male
Position (location)
Sensory perception
Skull
Skull - physiology
Sound Localization - physiology
Sound waves
Space life sciences
Space Perception - physiology
Task Performance and Analysis
Tasks
Transducers
Vibration
Vibrators
Young Adult
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Summary:Objective: This study assessed listeners’ ability to localize spatially differentiated virtual audio signals delivered by bone conduction (BC) vibrators and circumaural air conduction (AC) headphones. Background: Although the skull offers little intracranial sound wave attenuation, previous studies have demonstrated listeners’ ability to localize auditory signals delivered by a pair of BC vibrators coupled to the mandibular condyle bones. The current study extended this research to other BC vibrator locations on the skull. Method: Each participant listened to virtual audio signals originating from 16 different horizontal locations using circumaural headphones or BC vibrators placed in front of, above, or behind the listener’s ears. The listener’s task was to indicate the signal’s perceived direction of origin. Results: Localization accuracy with the BC front and BC top positions was comparable to that with the headphones, but responses for the BC back position were less accurate than both the headphones and BC front position. Conclusion: This study supports the conclusion of previous studies that listeners can localize virtual 3D signals equally well using AC and BC transducers. Based on these results, it is apparent that BC devices could be substituted for AC headphones with little to no localization performance degradation. Application: BC headphones can be used when spatial auditory information needs to be delivered without occluding the ears. Although vibrator placement in front of the ears appears optimal from the localization standpoint, the top or back position may be acceptable from an operational standpoint or if the BC system is integrated into headgear.
ISSN:0018-7208
1547-8181
DOI:10.1177/0018720815596272