2000
DOI: 10.1121/1.428447
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Tori of confusion: Binaural localization cues for sources within reach of a listener

Abstract: To a first-order approximation, binaural localization cues are ambiguous: many source locations give rise to nearly the same interaural differences. For sources more than a meter away, binaural localization cues are approximately equal for any source on a cone centered on the interaural axis (i.e., the well-known "cone of confusion"). The current paper analyzes simple geometric approximations of a head to gain insight into localization performance for nearby sources. If the head is treated as a rigid, perfect … Show more

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Cited by 105 publications
(74 citation statements)
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“…The resulting localization cue is frequently referred to as the interaural envelope difference (IED). In a similar fashion, the IID cues have been found to be important for the localization of low frequency sounds in the case of near-field sound sources Shinn-Cunningham et al, 2000). See section 2.1.5 for more information on the differences in the localization of far-and near-field sound sources.…”
Section: Duplex Theorymentioning
confidence: 73%
“…The resulting localization cue is frequently referred to as the interaural envelope difference (IED). In a similar fashion, the IID cues have been found to be important for the localization of low frequency sounds in the case of near-field sound sources Shinn-Cunningham et al, 2000). See section 2.1.5 for more information on the differences in the localization of far-and near-field sound sources.…”
Section: Duplex Theorymentioning
confidence: 73%
“…BB and limBB stimuli activated all known spatial channels (ITD, IID, and elevation-dependent spectral cues). LP targets provided ITDs but no usable IIDs as the target array was located sufficiently far (Ͼ1 m away) from listeners (Brungart and Rabinowitz 1999;Shinn-Cunningham et al 2000). HP, limHP, and uHP targets selectively emphasized IID and spectral cues and were broad enough in bandwidth to preclude utilization of envelope ITD cues in free-field localization (Macpherson and Middlebrooks 2002;McFadden and Pasanen 1976).…”
Section: Experimental Paradigmsmentioning
confidence: 99%
“…For the sources with azimuth angles within − θ R , 0 , the propagation to the rotating microphone corresponds to case 3. The transition from case 1 to case 2 occurs when the rotating microphone passes θ b and the subsequent transition from case 2 to case 1 occurs at π + θ b , where θ b is defined in equation (14). For the sources with azimuth angles within 0, + θ R , the transition from case 1 to case 2 occurs at θ b and the consecutive transition from case 2 to case 1 occurs…”
Section: Characteristics Of the Ictd Trajectory Of The Rotating Micromentioning
confidence: 99%
“…Except for circumstances in which directional microphones are used, if only two microphones are used and their locations do not change with time, 3-D SSL is not possible, because front-back confusion occurs due to the existence of many directions sharing the same localization cues, even for a single SSL [13,14]. This is called the cone-of-confusion in 3-D space.…”
Section: Introductionmentioning
confidence: 99%