Add to ORKGThe ability to localize sound sources relies on differences between the signals at the two ears. These differences are also the basis for binaural unmasking, an improvement in detecting or understanding a sound masked by sources from other locations. The neurocomputational operation that underlies binaural unmasking is still a matter of debate. Current models rely on the cross-correlation function of the signals at the two ears, the neuronal substrate of which has been observed in the barn owl but not in mammals. This disagreement lead to the formulation of an alternative coding mechanism where interaural differences are encoded using the neuronal activity within two hemispheric channels. This mechanism agrees with mammalian physiology but ...
The brain combines sounds from the two ears, but what is the algorithm used to achieve this summatio...
The binaural system utilizes interaural timing cues to improve the detection of auditory signals pre...
The barn owl (Tyto alba) uses interaural time difference (ITD) cues to localize sounds in the horizo...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
The binaural system utilizes interaural timing cues to improve the detection of auditory signals pre...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
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...
Auditory detection and localization is important for animals and humans and crucial for barn owls. I...
Differences in interaural phase configuration between a target and a masker can lead to substantial ...
Sound sources off the midsagittal plane travel different distances to the two ears and thereby gener...
The auditory system computes sound location by detecting submillisecond time differences in the arri...
Is binaural processing in humans different to that of other mammals? While psychophysical data sugge...
The brain combines sounds from the two ears, but what is the algorithm used to achieve this summatio...
The binaural system utilizes interaural timing cues to improve the detection of auditory signals pre...
The barn owl (Tyto alba) uses interaural time difference (ITD) cues to localize sounds in the horizo...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
The binaural system utilizes interaural timing cues to improve the detection of auditory signals pre...
To localize low-frequency sound sources in azimuth, the binaural system compares the timing of sound...
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...
Auditory detection and localization is important for animals and humans and crucial for barn owls. I...
Differences in interaural phase configuration between a target and a masker can lead to substantial ...
Sound sources off the midsagittal plane travel different distances to the two ears and thereby gener...
The auditory system computes sound location by detecting submillisecond time differences in the arri...
Is binaural processing in humans different to that of other mammals? While psychophysical data sugge...
The brain combines sounds from the two ears, but what is the algorithm used to achieve this summatio...
The binaural system utilizes interaural timing cues to improve the detection of auditory signals pre...
The barn owl (Tyto alba) uses interaural time difference (ITD) cues to localize sounds in the horizo...