TY - JOUR
T1 - Failure of the precedence effect with a noise-band vocoder
AU - Seeber, Bernhard U.
AU - Hafter, Ervin R.
N1 - Funding Information:
We thank the subjects for their participation and Ruth Litovsky, Wes Grantham, Ian Wiggins, and one anonymous reviewer for their suggestions toward improving this manuscript. Oliver Zobay helped with the statistical analysis (ANOVAs). This work was funded by National Institutes of Health RO1 DCD 00087 and the first author was supported by the Intramural Programme of the Medical Research Council (UK) during data analysis and write-up of the manuscript.
PY - 2011/3
Y1 - 2011/3
N2 - The precedence effect (PE) describes the ability to localize a direct, leading sound correctly when its delayed copy (lag) is present, though not separately audible. The relative contribution of binaural cues in the temporal fine structure (TFS) of lead-lag signals was compared to that of interaural level differences (ILDs) and interaural time differences (ITDs) carried in the envelope. In a localization dominance paradigm participants indicated the spatial location of lead-lag stimuli processed with a binaural noise-band vocoder whose noise carriers introduced random TFS. The PE appeared for noise bursts of 10 ms duration, indicating dominance of envelope information. However, for three test words the PE often failed even at short lead-lag delays, producing two images, one toward the lead and one toward the lag. When interaural correlation in the carrier was increased, the images appeared more centered, but often remained split. Although previous studies suggest dominance of TFS cues, no image is lateralized in accord with the ITD in the TFS. An interpretation in the context of auditory scene analysis is proposed: By replacing the TFS with that of noise the auditory system loses the ability to fuse lead and lag into one object, and thus to show the PE.
AB - The precedence effect (PE) describes the ability to localize a direct, leading sound correctly when its delayed copy (lag) is present, though not separately audible. The relative contribution of binaural cues in the temporal fine structure (TFS) of lead-lag signals was compared to that of interaural level differences (ILDs) and interaural time differences (ITDs) carried in the envelope. In a localization dominance paradigm participants indicated the spatial location of lead-lag stimuli processed with a binaural noise-band vocoder whose noise carriers introduced random TFS. The PE appeared for noise bursts of 10 ms duration, indicating dominance of envelope information. However, for three test words the PE often failed even at short lead-lag delays, producing two images, one toward the lead and one toward the lag. When interaural correlation in the carrier was increased, the images appeared more centered, but often remained split. Although previous studies suggest dominance of TFS cues, no image is lateralized in accord with the ITD in the TFS. An interpretation in the context of auditory scene analysis is proposed: By replacing the TFS with that of noise the auditory system loses the ability to fuse lead and lag into one object, and thus to show the PE.
UR - https://www.scopus.com/pages/publications/79953044314
U2 - 10.1121/1.3531836
DO - 10.1121/1.3531836
M3 - Article
C2 - 21428515
AN - SCOPUS:79953044314
SN - 0001-4966
VL - 129
SP - 1509
EP - 1521
JO - Journal of the Acoustical Society of America
JF - Journal of the Acoustical Society of America
IS - 3
ER -