International audienceTo localize sounds in the environment, animals mostly rely on spectro-temporal cues originating from the physical disparities of the sound waveforms impacting the two ears. Among those, the Interaural Time Difference (ITD) has been shown to be crucial in mammals for locating low-frequency sounds, and is known to be processed by neurons in a particular structure, the Medial Superior Olive (MSO). While it is classically considered that the emergence of ITD selectivity in a neuron of the MSO is simply due to differences in the axonal delays originating from the two ears and impinging those neu-rons (the so called " delay-line " model [1]), experimental evidence shows that the best delay (the ITD at which the neuron's firi...
The dominant cue for localization of low-frequency sounds are microsecond differences in the time-of...
The interaural time difference (ITD) between sounds at the two ears is an important cue in low-frequ...
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...
The mammalian auditory system is able to extract temporal and spectral features from sound signals a...
<p>The mammalian auditory system is able to extract temporal and spectral features from sound signal...
Time differences between the two ears are an important cue for animals to azimuthally locate a sound...
Accurate sound source localization of low-frequency sounds in the horizontal plane depends criticall...
Mammals are known to use Interaural Intensity Difference (IID) to determine azimuthal position of hi...
The largest nucleus of the human superior olivary complex is the medial superior olive (MSO), which ...
textabstractNeurons in the medial superior olive (MSO) enable sound localization by their remarkable...
SummaryNeurons in the medial superior olive (MSO) enable sound localization by their remarkable sens...
The largest nucleus of the human superior olivary complex is the medial superior olive (MSO), which ...
Low-frequency sound localization depends on the neural computation of interaural time differences (I...
Interaural time difference (ITD) is a cue to the location of sounds containing low frequencies and i...
The dominant cue for localization of low-frequency sounds are microsecond differences in the time-of...
The interaural time difference (ITD) between sounds at the two ears is an important cue in low-frequ...
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...
The mammalian auditory system is able to extract temporal and spectral features from sound signals a...
<p>The mammalian auditory system is able to extract temporal and spectral features from sound signal...
Time differences between the two ears are an important cue for animals to azimuthally locate a sound...
Accurate sound source localization of low-frequency sounds in the horizontal plane depends criticall...
Mammals are known to use Interaural Intensity Difference (IID) to determine azimuthal position of hi...
The largest nucleus of the human superior olivary complex is the medial superior olive (MSO), which ...
textabstractNeurons in the medial superior olive (MSO) enable sound localization by their remarkable...
SummaryNeurons in the medial superior olive (MSO) enable sound localization by their remarkable sens...
The largest nucleus of the human superior olivary complex is the medial superior olive (MSO), which ...
Low-frequency sound localization depends on the neural computation of interaural time differences (I...
Interaural time difference (ITD) is a cue to the location of sounds containing low frequencies and i...
The dominant cue for localization of low-frequency sounds are microsecond differences in the time-of...
The interaural time difference (ITD) between sounds at the two ears is an important cue in low-frequ...
The current dominant model of binaural sound localization proposes that the lateral position of a so...