2012
DOI: 10.1121/1.4718637
|View full text |Cite
|
Sign up to set email alerts
|

Spatial cues alone produce inaccurate sound segregation: The effect of interaural time differences

Abstract: To clarify the role of spatial cues in sound segregation, this study explored whether interaural time differences (ITDs) are sufficient to allow listeners to identify a novel sound source from a mixture of sources. Listeners heard mixtures of two synthetic sounds, a target and distractor, each of which possessed naturalistic spectrotemporal correlations but otherwise lacked strong grouping cues, and which contained either the same or different ITDs. When the task was to judge whether a probe sound matched a so… Show more

Help me understand this report

Search citation statements

Order By: Relevance

Paper Sections

Select...
1
1
1
1

Citation Types

0
22
0

Year Published

2013
2013
2023
2023

Publication Types

Select...
4
4
1

Relationship

1
8

Authors

Journals

citations
Cited by 37 publications
(22 citation statements)
references
References 60 publications
0
22
0
Order By: Relevance
“…Later work has demonstrated, however, that the weighting of ILD and ITD cues is a more complex function of stimulus characteristics such as spectrum, interaural coherence, and onset characteristics (e.g., Stecker 2013;Stecker et al 2013). Our use of two concurrent stimuli, however, may have acted to decorrelate to some extent, the timing information at each ear, making the extraction of ITD cues for each stimulus unreliable (see Lee et al 2009;Rakerd and Hartmann 2010, but see also Schwartz et al 2012) and causing a down-weighting of the ITD cue relative to the ILD cue. This would be consistent with recent models of optimal cue integration in a variety of sensory systems which embody a Bayesian or BKalman filter^approach to optimize fusion of multiple cues that may vary in reliability (Ley et al 2009;Wozny and Shams 2011).…”
Section: Summary Of Findings In Spatial Coordinatesmentioning
confidence: 99%
“…Later work has demonstrated, however, that the weighting of ILD and ITD cues is a more complex function of stimulus characteristics such as spectrum, interaural coherence, and onset characteristics (e.g., Stecker 2013;Stecker et al 2013). Our use of two concurrent stimuli, however, may have acted to decorrelate to some extent, the timing information at each ear, making the extraction of ITD cues for each stimulus unreliable (see Lee et al 2009;Rakerd and Hartmann 2010, but see also Schwartz et al 2012) and causing a down-weighting of the ITD cue relative to the ILD cue. This would be consistent with recent models of optimal cue integration in a variety of sensory systems which embody a Bayesian or BKalman filter^approach to optimize fusion of multiple cues that may vary in reliability (Ley et al 2009;Wozny and Shams 2011).…”
Section: Summary Of Findings In Spatial Coordinatesmentioning
confidence: 99%
“…Indeed, in typical English speech, syllabic rates are in this range, typically below 10 Hz (Greenberg, Carvey, Hitchcock, & Chang, 2003). Interestingly, although people have an intuitive sense that we should group together sound elements that have spatial cues consistent with the same source location, spatial cues have a relatively weak impact on perceptual grouping of brief sound elements (Darwin & Hukin, 1997); spatial cues generally only influence perceptual grouping at this level when other spectrotemporal cues are ambiguous (e.g., Schwartz, McDermott, & Shinn-Cunningham, 2012;Shinn-Cunningham, Lee, & Oxenham, 2007). Sounds that are harmonically related also tend to be perceived as having a common source, whereas inharmonicity can cause grouping to break down (Culling & Darwin, 1993a;Darwin, Hukin, & al-Khatib, 1995;.…”
Section: Auditory Selective Attention Depends On Auditory Object Formmentioning
confidence: 99%
“…While intuitively sound localization is related to the ability to attend to sounds based on their location, accurate localization is neither necessary nor sufficient for predicting the importance of spatial cues in understanding a signal in a mixture of sounds (Noble et al, 1997;Gallun et al, 2008;Schwartz et al, 2012). How dynamic range compression affects this ability cannot be easily predicted by how it affects localization.…”
Section: Introductionmentioning
confidence: 99%
“…Given this, the reduction of ILDs caused by compression may in fact restore "normal" neural representations of ILDs in many individuals with hearing loss, leading us to overestimate the effects of compression by testing normal-hearing listeners. However, even if the restoration of normal ILDs improved sound localization accuracy, it would not necessarily improve the ability to use spatial cues to direct attention (Noble et al, 1997;Gallun et al, 2008;Schwartz et al, 2012). We argue that in order to correctly select a target talker using spatial cues (or any other cues), listeners only need to be able to distinguish the target from the maskers using one or more perceptual features, such as location.…”
Section: Compression May Affect Ild Utility Differently In Hearingmentioning
confidence: 99%