Coding of sound location in auditory cortex (AC) is only partially understood. Recent electrophysiological research suggests that neurons in mammalian auditory cortex are characterized by broad spatial tuning and a preference for the contralateral hemifield, that is, a nonuniform sampling of sound azimuth. Additionally, spatial selectivity decreases with increasing sound intensity. To accommodate these findings, it has been proposed that sound location is encoded by the integrated activity of neuronal populations with opposite hemifield tuning ("opponent channel model"). In this study, we investigated the validity of such a model in human AC with functional magnetic resonance imaging (fMRI) and a phase-encoding paradigm employing binaural s...
To determine the direction of a sound source in space, animals must process a variety of auditory sp...
To determine the direction of a sound source in space, animals must process a variety of auditory sp...
SummaryThe neural basis of spatial processing in the auditory cortex has been controversial. Human f...
Coding of sound location in auditory cortex (AC) is only partially understood. Recent electrophysiol...
<div><p>In mammalian auditory cortex, sound source position is represented by a population of broadl...
Spatial hearing sensitivity in humans is dynamic and task-dependent, but the mechanisms in human aud...
Background: Previous work on the human auditory cortex has revealed areas specialized in spatial pro...
The ability to compute the location and direction of sounds is a crucial perceptual skill to efficie...
Sound localization is one of the most fundamental tasks performed by the auditory system. In mammals...
Auditory space poses a difficult computational challenge to the nervous system. The localization of ...
The further apart two sounds are along the horizontal azimuth, the more likely they are to be heard ...
The aim of this functional magnetic resonance imaging (fMRI) study was to identify human brain areas...
Thesis (Ph.D.)--University of Washington, 2013Interaural level and time differences (ILD and ITD) ar...
To determine the direction of a sound source in space, animals must process a variety of auditory sp...
To determine the direction of a sound source in space, animals must process a variety of auditory sp...
SummaryThe neural basis of spatial processing in the auditory cortex has been controversial. Human f...
Coding of sound location in auditory cortex (AC) is only partially understood. Recent electrophysiol...
<div><p>In mammalian auditory cortex, sound source position is represented by a population of broadl...
Spatial hearing sensitivity in humans is dynamic and task-dependent, but the mechanisms in human aud...
Background: Previous work on the human auditory cortex has revealed areas specialized in spatial pro...
The ability to compute the location and direction of sounds is a crucial perceptual skill to efficie...
Sound localization is one of the most fundamental tasks performed by the auditory system. In mammals...
Auditory space poses a difficult computational challenge to the nervous system. The localization of ...
The further apart two sounds are along the horizontal azimuth, the more likely they are to be heard ...
The aim of this functional magnetic resonance imaging (fMRI) study was to identify human brain areas...
Thesis (Ph.D.)--University of Washington, 2013Interaural level and time differences (ILD and ITD) ar...
To determine the direction of a sound source in space, animals must process a variety of auditory sp...
To determine the direction of a sound source in space, animals must process a variety of auditory sp...
SummaryThe neural basis of spatial processing in the auditory cortex has been controversial. Human f...