
The dynamics of sound localization were studied using a free-field direct localization task (pointing to sound sources) and an observer-weighting analysis that assessed the relative influence of each click in a click-train stimulus. In agreement with previous studies of the precedence effect and binaural adaptation, weighting functions showed increased influence of the onset click when the interclick interval (ICI) was short (<5 ms). For longer ICIs, all clicks in a train contributed roughly the same amount to listeners’ localization responses. Finally, when a short gap was introduced in the middle of a train, the influence of the click immediately following the gap increased, in agreement with the “restarting” results obtained by Hafter and Buell [J. Acoust. Soc. Am. 88, 806–812 (1990)].
Sound Spectrography, Acoustic Stimulation, Loudness Perception, Time Perception, Humans, Attention, Sound Localization, Pitch Perception, Functional Laterality, Psychoacoustics
Sound Spectrography, Acoustic Stimulation, Loudness Perception, Time Perception, Humans, Attention, Sound Localization, Pitch Perception, Functional Laterality, Psychoacoustics
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