Contribution of self-motion perception to acoustic target localization

Conclusion The findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible for the correct dynamic of acoustic target pursuit. Objective The ability to localize sounds in space during whole-body rotation relies on th...

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Published in	Acta oto-laryngologica Vol. 125; no. 5; pp. 524 - 528
Main Authors	Pettorossi, V. E., Brosch, M., Panichi, R., Botti, F., Grassi, S., Troiani, D.
Format	Journal Article Conference Proceeding
Language	English
Published	Stockholm Informa Healthcare 01.05.2005 Taylor & Francis Taylor and Francis
Subjects	Acoustic target pursuit Acoustics Adult Biological and medical sciences Female Head - physiology Humans Male Medical sciences Middle Aged Motion Perception Movement - physiology Otorhinolaryngology. Stomatology self-motion perception sound lateralization Sound Localization - physiology Space Perception - physiology Human Motion Audiometry Exploration Acoustics Self perception ENT Sound Acoustic target pursuit self-motion perception Laterality Localization Spatial representation sound lateralization
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Abstract	Conclusion The findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible for the correct dynamic of acoustic target pursuit. Objective The ability to localize sounds in space during whole-body rotation relies on the auditory localization system, which recognizes the position of sound in a head-related frame, and on the sensory systems, namely the vestibular system, which perceive head and body movement. The aim of this study was to analyse the contribution of head motion cues to the spatial representation of acoustic targets in humans. Material and methods Healthy subjects standing on a rotating platform in the dark were asked to pursue with a laser pointer an acoustic target which was horizontally rotated while the body was kept stationary or maintained stationary while the whole body was rotated. The contribution of head motion to the spatial acoustic representation could be inferred by comparing the gains and phases of the pursuit in the two experimental conditions when the frequency was varied. Results During acoustic target rotation there was a reduction in the gain and an increase in the phase lag, while during whole-body rotations the gain tended to increase and the phase remained constant. The different contributions of the vestibular and acoustic systems were confirmed by analysing the acoustic pursuit during asymmetric body rotation. In this particular condition, in which self-motion perception gradually diminished, an increasing delay in target pursuit was observed.
AbstractList	Conclusion The findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible for the correct dynamic of acoustic target pursuit. Objective The ability to localize sounds in space during whole-body rotation relies on the auditory localization system, which recognizes the position of sound in a head-related frame, and on the sensory systems, namely the vestibular system, which perceive head and body movement. The aim of this study was to analyse the contribution of head motion cues to the spatial representation of acoustic targets in humans. Material and methods Healthy subjects standing on a rotating platform in the dark were asked to pursue with a laser pointer an acoustic target which was horizontally rotated while the body was kept stationary or maintained stationary while the whole body was rotated. The contribution of head motion to the spatial acoustic representation could be inferred by comparing the gains and phases of the pursuit in the two experimental conditions when the frequency was varied. Results During acoustic target rotation there was a reduction in the gain and an increase in the phase lag, while during whole-body rotations the gain tended to increase and the phase remained constant. The different contributions of the vestibular and acoustic systems were confirmed by analysing the acoustic pursuit during asymmetric body rotation. In this particular condition, in which self-motion perception gradually diminished, an increasing delay in target pursuit was observed. CONCLUSIONThe findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible for the correct dynamic of acoustic target pursuit.OBJECTIVEThe ability to localize sounds in space during whole-body rotation relies on the auditory localization system, which recognizes the position of sound in a head-related frame, and on the sensory systems, namely the vestibular system, which perceive head and body movement. The aim of this study was to analyse the contribution of head motion cues to the spatial representation of acoustic targets in humans.MATERIAL AND METHODSHealthy subjects standing on a rotating platform in the dark were asked to pursue with a laser pointer an acoustic target which was horizontally rotated while the body was kept stationary or maintained stationary while the whole body was rotated. The contribution of head motion to the spatial acoustic representation could be inferred by comparing the gains and phases of the pursuit in the two experimental conditions when the frequency was varied.RESULTSDuring acoustic target rotation there was a reduction in the gain and an increase in the phase lag, while during whole-body rotations the gain tended to increase and the phase remained constant. The different contributions of the vestibular and acoustic systems were confirmed by analysing the acoustic pursuit during asymmetric body rotation. In this particular condition, in which self-motion perception gradually diminished, an increasing delay in target pursuit was observed. The findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible for the correct dynamic of acoustic target pursuit. The ability to localize sounds in space during whole-body rotation relies on the auditory localization system, which recognizes the position of sound in a head-related frame, and on the sensory systems, namely the vestibular system, which perceive head and body movement. The aim of this study was to analyse the contribution of head motion cues to the spatial representation of acoustic targets in humans. Healthy subjects standing on a rotating platform in the dark were asked to pursue with a laser pointer an acoustic target which was horizontally rotated while the body was kept stationary or maintained stationary while the whole body was rotated. The contribution of head motion to the spatial acoustic representation could be inferred by comparing the gains and phases of the pursuit in the two experimental conditions when the frequency was varied. During acoustic target rotation there was a reduction in the gain and an increase in the phase lag, while during whole-body rotations the gain tended to increase and the phase remained constant. The different contributions of the vestibular and acoustic systems were confirmed by analysing the acoustic pursuit during asymmetric body rotation. In this particular condition, in which self-motion perception gradually diminished, an increasing delay in target pursuit was observed.
Author	Botti, F. Pettorossi, V. E. Panichi, R. Brosch, M. Grassi, S. Troiani, D.
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Snippet	Conclusion The findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible... The findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible for the... CONCLUSIONThe findings of this study suggest that acoustic spatial perception during head movement is achieved by the vestibular system, which is responsible...
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SubjectTerms	Acoustic target pursuit Acoustics Adult Biological and medical sciences Female Head - physiology Humans Male Medical sciences Middle Aged Motion Perception Movement - physiology Otorhinolaryngology. Stomatology self-motion perception sound lateralization Sound Localization - physiology Space Perception - physiology
Title	Contribution of self-motion perception to acoustic target localization
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