Mammals 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...
Humans and owls localize sounds by detecting the arrival time disparity between the ears. Both speci...
Our concepts of sound localization in the vertebrate brain are widely based on the general assumptio...
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...
The current dominant model of binaural sound localization proposes that the lateral position of a so...
SummaryMinute differences between the time of arrival of a sound at the two ears are used by humans ...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...
Sound localization critically depends on detection of differences in arrival time of sounds at the t...
Interaural time differences (ITD) are one of several principle cues for localizing sounds. However, ...
Human psychoacoustical studies have been the main sources of information from which the brain mechan...
It is believed that many animals determine the direction of a low frequency sound by comparing the t...
Songbirds, like humans, learn to produce and to recognize complex, species-specific sounds, providin...
The auditory system uses delay lines and coincidence detec-tion to measure the interaural time diffe...
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...
Humans and owls localize sounds by detecting the arrival time disparity between the ears. Both speci...
Our concepts of sound localization in the vertebrate brain are widely based on the general assumptio...
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...
The current dominant model of binaural sound localization proposes that the lateral position of a so...
SummaryMinute differences between the time of arrival of a sound at the two ears are used by humans ...
The arrival times of a sound at the two ears are only microseconds apart, but both birds and mammals...
Sound localization critically depends on detection of differences in arrival time of sounds at the t...
Interaural time differences (ITD) are one of several principle cues for localizing sounds. However, ...
Human psychoacoustical studies have been the main sources of information from which the brain mechan...
It is believed that many animals determine the direction of a low frequency sound by comparing the t...
Songbirds, like humans, learn to produce and to recognize complex, species-specific sounds, providin...
The auditory system uses delay lines and coincidence detec-tion to measure the interaural time diffe...
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...
Humans and owls localize sounds by detecting the arrival time disparity between the ears. Both speci...
Our concepts of sound localization in the vertebrate brain are widely based on the general assumptio...
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