AbstractMammals and birds appear to encode timing differences between the ears, a major cue for auditory localization, in fundamentally different ways. It now appears that results from different species can be accommodated within a single general framework
Binaural hearing, the ability to detect small differences in the timing and level of sounds at the t...
Sound localization requires comparison between the inputs to the left and right ears. One important ...
Sound source localization is critical to animal survival and for identification of auditory objects....
Mammals and birds appear to encode timing differences between the ears, a major cue for auditory loc...
AbstractMammals and birds appear to encode timing differences between the ears, a major cue for audi...
Mammals and birds appear to encode timing differences between the ears, a major cue for auditory loc...
Both the mammalian and avian auditory systems localize sound sources by computing the interaural tim...
The barn owl uses the interaural difference in the timing of sounds to determine the azimuth of the ...
The auditory system computes sound location by detecting submillisecond time differences in the arri...
The barn owl (Tyto alba) uses interaural time difference (ITD) cues to localize sounds in the horizo...
Sound sources off the midsagittal plane travel different distances to the two ears and thereby gener...
The current dominant model of binaural sound localization proposes that the lateral position of a so...
A major cue to the location of a sound source is the interaural time difference (ITD)–the difference...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plan...
A major cue to the location of a sound source is the interaural time difference (ITD)-the difference...
Binaural hearing, the ability to detect small differences in the timing and level of sounds at the t...
Sound localization requires comparison between the inputs to the left and right ears. One important ...
Sound source localization is critical to animal survival and for identification of auditory objects....
Mammals and birds appear to encode timing differences between the ears, a major cue for auditory loc...
AbstractMammals and birds appear to encode timing differences between the ears, a major cue for audi...
Mammals and birds appear to encode timing differences between the ears, a major cue for auditory loc...
Both the mammalian and avian auditory systems localize sound sources by computing the interaural tim...
The barn owl uses the interaural difference in the timing of sounds to determine the azimuth of the ...
The auditory system computes sound location by detecting submillisecond time differences in the arri...
The barn owl (Tyto alba) uses interaural time difference (ITD) cues to localize sounds in the horizo...
Sound sources off the midsagittal plane travel different distances to the two ears and thereby gener...
The current dominant model of binaural sound localization proposes that the lateral position of a so...
A major cue to the location of a sound source is the interaural time difference (ITD)–the difference...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plan...
A major cue to the location of a sound source is the interaural time difference (ITD)-the difference...
Binaural hearing, the ability to detect small differences in the timing and level of sounds at the t...
Sound localization requires comparison between the inputs to the left and right ears. One important ...
Sound source localization is critical to animal survival and for identification of auditory objects....
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