Although the auditory cortex plays an important role in sound localization, that role is not well understood. In this paper, we examine the nature of spatial representation within the auditory cortex, focusing on three questions. First, are sound-source locations encoded by individual sharply tuned neurons or by activity distributed across larger neuronal populations? Second, do temporal features of neural responses carry information about sound-source location? Third, are any fields of the auditory cortex specialized for spatial processing? We present a brief review of recent work relevant to these questions along with the results of our investigations of spatial sensitivity in cat auditory cortex. Together, they strongly suggest that spac...
Spatial hearing sensitivity in humans is dynamic and task-dependent, but the mechanisms in human aud...
Auditory cortex is essential for normal sound localization behavior. Reversible inactivation of prim...
The cochlea behaves like a bank of band-pass filters, segregating information into different frequen...
Auditory cortex is required for sound localisation, but how neural firing in auditory cortex underl...
Humans and other animals use spatial hearing to rapidly localize events in the environment. However,...
Akey function of the auditory system is to provide reliable information about the location of sound ...
A key function of the brain is to provide a stable representation of an object’s location in the wor...
Auditory space poses a difficult computational challenge to the nervous system. The localization of ...
Why is spatial tuning in auditory cortex weak, even though location is important to object recogniti...
Background: Previous work on the human auditory cortex has revealed areas specialized in spatial pro...
The primary and posterior auditory cortex (AC) are known for their sensitivity to spatial informatio...
<div><p>In mammalian auditory cortex, sound source position is represented by a population of broadl...
The human auditory cortex simultaneously processes speech and determines the location of a speaker i...
Abstract Coding of sound location in auditory cortex (AC) is only partially understood. Recent elect...
SummaryThe neural basis of spatial processing in the auditory cortex has been controversial. Human f...
Spatial hearing sensitivity in humans is dynamic and task-dependent, but the mechanisms in human aud...
Auditory cortex is essential for normal sound localization behavior. Reversible inactivation of prim...
The cochlea behaves like a bank of band-pass filters, segregating information into different frequen...
Auditory cortex is required for sound localisation, but how neural firing in auditory cortex underl...
Humans and other animals use spatial hearing to rapidly localize events in the environment. However,...
Akey function of the auditory system is to provide reliable information about the location of sound ...
A key function of the brain is to provide a stable representation of an object’s location in the wor...
Auditory space poses a difficult computational challenge to the nervous system. The localization of ...
Why is spatial tuning in auditory cortex weak, even though location is important to object recogniti...
Background: Previous work on the human auditory cortex has revealed areas specialized in spatial pro...
The primary and posterior auditory cortex (AC) are known for their sensitivity to spatial informatio...
<div><p>In mammalian auditory cortex, sound source position is represented by a population of broadl...
The human auditory cortex simultaneously processes speech and determines the location of a speaker i...
Abstract Coding of sound location in auditory cortex (AC) is only partially understood. Recent elect...
SummaryThe neural basis of spatial processing in the auditory cortex has been controversial. Human f...
Spatial hearing sensitivity in humans is dynamic and task-dependent, but the mechanisms in human aud...
Auditory cortex is essential for normal sound localization behavior. Reversible inactivation of prim...
The cochlea behaves like a bank of band-pass filters, segregating information into different frequen...