dimensional (3-D) sound Sounds convolved with individual head-related transfer functions and presented through headphones can give very natural percepts of the three-dimensional auditory space. We recorded whole-scalp neuromagnetic responses to such stimuli to compare reactivity of the human auditory cortex to sound azimuth and elevation. The results suggest that the human auditory cortex analyses sound azimuth, based on both binaural and monaural localization cues, mainly in the hemisphere contralateral to the sound, whereas elevation in the anterior space and in the lateral auditory space in general, both strongly relying on monaural spectral cues, are analyzed in more detail in the right auditory cortex. The binaural interaural time and ...
The auditory system derives locations of sound sources from spatial cues provided by the interaction...
VK: LokkiPrevious imaging studies on the brain mechanisms of spatial hearing have mainly focused on ...
Few auditory functions are as important or as universal as the capacity for auditory spatial awarene...
This study was designed to test two hypotheses about binaural hearing: (1) that binaural cues are pr...
Coding of sound location in auditory cortex (AC) is only partially understood. Recent electrophysiol...
The auditory cortex represents spatial locations differently from other sensory modalities. While vi...
The integration of auditory and visual spatial information is an important prerequisite for accurate...
Background Previous work on the human auditory cortex has revealed areas specialized in spatial proc...
We report evidence for a context- and not stimulus-dependent functional asymmetry in the left and ri...
We report evidence for a context- and not stimulus-dependent functional asymmetry in the left and ri...
Perception of the acoustic world requires the simultaneous processing of the acoustic patterns assoc...
A key function of the brain is to provide a stable representation of an object’s location in the wor...
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 auditory system derives locations of sound sources from spatial cues provided by the interaction...
VK: LokkiPrevious imaging studies on the brain mechanisms of spatial hearing have mainly focused on ...
Few auditory functions are as important or as universal as the capacity for auditory spatial awarene...
This study was designed to test two hypotheses about binaural hearing: (1) that binaural cues are pr...
Coding of sound location in auditory cortex (AC) is only partially understood. Recent electrophysiol...
The auditory cortex represents spatial locations differently from other sensory modalities. While vi...
The integration of auditory and visual spatial information is an important prerequisite for accurate...
Background Previous work on the human auditory cortex has revealed areas specialized in spatial proc...
We report evidence for a context- and not stimulus-dependent functional asymmetry in the left and ri...
We report evidence for a context- and not stimulus-dependent functional asymmetry in the left and ri...
Perception of the acoustic world requires the simultaneous processing of the acoustic patterns assoc...
A key function of the brain is to provide a stable representation of an object’s location in the wor...
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 auditory system derives locations of sound sources from spatial cues provided by the interaction...
VK: LokkiPrevious imaging studies on the brain mechanisms of spatial hearing have mainly focused on ...
Few auditory functions are as important or as universal as the capacity for auditory spatial awarene...