Add to ORKGThe current dominant model of binaural sound localization proposes that the lateral position of a sound source is determined by the position of maximal activation within an array of binaural coincidence-detector neurons that are tuned to different interaural time differences (ITDs). The tuning of a neuron for an ITD is determined by the difference in axonal conduction delay from each ear - the so-called 'delay line' hypothesis. Although studies in birds appear to support this model, recent evidence from mammals suggests that the model does not provide accurate descriptions of how ITDs are encoded in the mammalian auditory brainstem or of how ITD-sensitive neurons contribute to mammalian sound localization
AbstractMammals and birds appear to encode timing differences between the ears, a major cue for audi...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...
The current dominant model of binaural sound localization proposes that the lateral position of a so...
Interaural time differences (ITDs), the differences of arrival time of the sound at the two ears, pr...
Interaural time differences (ITDs), the differences of arrival time of the sound at the two ears, pr...
Sound sources off the midsagittal plane travel different distances to the two ears and thereby gener...
Mammals and birds appear to encode timing differences between the ears, a major cue for auditory loc...
In this work is presented stochastic model of binaural hearing in context of another alternative mod...
Sound localization critically depends on detection of differences in arrival time of sounds at the t...
International audienceTo localize sounds in the environment, animals mostly rely on spectro-temporal...
Sound localization critically depends on detection of differences in arrival time of sounds at the t...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plan...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plan...
Sound source localization is critical to animal survival and for identification of auditory objects....
AbstractMammals and birds appear to encode timing differences between the ears, a major cue for audi...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...
The current dominant model of binaural sound localization proposes that the lateral position of a so...
Interaural time differences (ITDs), the differences of arrival time of the sound at the two ears, pr...
Interaural time differences (ITDs), the differences of arrival time of the sound at the two ears, pr...
Sound sources off the midsagittal plane travel different distances to the two ears and thereby gener...
Mammals and birds appear to encode timing differences between the ears, a major cue for auditory loc...
In this work is presented stochastic model of binaural hearing in context of another alternative mod...
Sound localization critically depends on detection of differences in arrival time of sounds at the t...
International audienceTo localize sounds in the environment, animals mostly rely on spectro-temporal...
Sound localization critically depends on detection of differences in arrival time of sounds at the t...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plan...
The interaural time difference (ITD) is a major cue to sound localization along the horizontal plan...
Sound source localization is critical to animal survival and for identification of auditory objects....
AbstractMammals and birds appear to encode timing differences between the ears, a major cue for audi...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...