The mammalian auditory system is able to extract temporal and spectral features from sound signals at the two ears. One important cue for localization of low-frequency sound sources in the horizontal plane are inter-aural time differences (ITDs) which are first analyzed in the medial superior olive (MSO) in the brainstem. Neural recordings of ITD tuning curves at various stages along the auditory pathway suggest that ITDs in the mammalian brainstem are not represented in form of a Jeffress-type place code. An alternative is the hemispheric opponent-channel code, according to which ITDs are encoded as the difference in the responses of the MSO nuclei in the two hemispheres. In this study, we present a physiologically-plausible, spiking neuro...
Sound localization requires comparison between the inputs to the left and right ears. One important ...
We assessed neural sensitivity to interaural time differences (ITDs) conveyed in the temporal fine s...
Binaural hearing, the ability to detect small differences in the timing and level of sounds at the t...
<p>The mammalian auditory system is able to extract temporal and spectral features from sound signal...
International audienceTo localize sounds in the environment, animals mostly rely on spectro-temporal...
Accurate sound source localization of low-frequency sounds in the horizontal plane depends criticall...
Interaural time differences (ITDs), the differences of arrival time of the sound at the two ears, pr...
Low-frequency sound localization depends on the neural computation of interaural time differences (I...
Two nuclei in each hemisphere, the medial superior olive (MSO) and the lateral superior olive (LSO),...
Sound localization can be defined as the ability to identify the position of an input sound source a...
Neurons in the medial superior olive (MSO) and lateral superior olive (LSO) of the auditory brainste...
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 ...
textabstractNeurons in the medial superior olive (MSO) enable sound localization by their remarkable...
Interaural time differences (ITDs) are an important cue for sound localization. It is generally agre...
Sound localization requires comparison between the inputs to the left and right ears. One important ...
We assessed neural sensitivity to interaural time differences (ITDs) conveyed in the temporal fine s...
Binaural hearing, the ability to detect small differences in the timing and level of sounds at the t...
<p>The mammalian auditory system is able to extract temporal and spectral features from sound signal...
International audienceTo localize sounds in the environment, animals mostly rely on spectro-temporal...
Accurate sound source localization of low-frequency sounds in the horizontal plane depends criticall...
Interaural time differences (ITDs), the differences of arrival time of the sound at the two ears, pr...
Low-frequency sound localization depends on the neural computation of interaural time differences (I...
Two nuclei in each hemisphere, the medial superior olive (MSO) and the lateral superior olive (LSO),...
Sound localization can be defined as the ability to identify the position of an input sound source a...
Neurons in the medial superior olive (MSO) and lateral superior olive (LSO) of the auditory brainste...
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 ...
textabstractNeurons in the medial superior olive (MSO) enable sound localization by their remarkable...
Interaural time differences (ITDs) are an important cue for sound localization. It is generally agre...
Sound localization requires comparison between the inputs to the left and right ears. One important ...
We assessed neural sensitivity to interaural time differences (ITDs) conveyed in the temporal fine s...
Binaural hearing, the ability to detect small differences in the timing and level of sounds at the t...