International audienceWe review behavioural and neural evidence for the processing of information contained in conspecific vocalizations (CVs) in three primate species: humans, macaques and marmosets. We focus on abilities that are present and ecologically relevant in all three species: the detection and sensitivity to CVs; and the processing of identity cues in CVs. Current evidence, although fragmentary, supports the notion of a "voice patch system" in the primate brain analogous to the face patch system of visual cortex: a series of discrete, interconnected cortical areas supporting increasingly abstract representations of the vocal input. A central question concerns the degree to which the voice patch system is conserved in evolution. W...
Neuroimaging studies have verified the important integrative role of the basal ganglia during affect...
Humans are adept at extracting affective information from vocalizations of humans and other animals....
Humans are known to have sophisticated control over speech sounds. The neural mechanisms underlying ...
International audienceWe review behavioural and neural evidence for the processing of information co...
Humans share with non-human primates a number of voice perception abilities of crucial importance in...
International audienceOne can consider human language to be the Swiss army knife of the vast domain ...
The recent work on speech and vocal sound processing by the human brain finds itself at a crossroads...
Communication sounds are a subset of sounds that are characterized by their unique acoustic structur...
Speech production involves the movement of the mouth and other regions of the face resulting in visu...
Understanding the nature of the relationship between vocal complexity and brain architecture across ...
[...] Primates are social animals whose communication is based on their conspecifics' vocalizations ...
Communication with other members of one's species is not restricted to human language: most primates...
As a prerequisite for human speech vocal communication has been intensively investigated in various ...
In this review article, I propose a continuous evolution from the auditory-vocal apparatus and its m...
SummaryCommunication signals are important for social interactions and survival and are thought to r...
Neuroimaging studies have verified the important integrative role of the basal ganglia during affect...
Humans are adept at extracting affective information from vocalizations of humans and other animals....
Humans are known to have sophisticated control over speech sounds. The neural mechanisms underlying ...
International audienceWe review behavioural and neural evidence for the processing of information co...
Humans share with non-human primates a number of voice perception abilities of crucial importance in...
International audienceOne can consider human language to be the Swiss army knife of the vast domain ...
The recent work on speech and vocal sound processing by the human brain finds itself at a crossroads...
Communication sounds are a subset of sounds that are characterized by their unique acoustic structur...
Speech production involves the movement of the mouth and other regions of the face resulting in visu...
Understanding the nature of the relationship between vocal complexity and brain architecture across ...
[...] Primates are social animals whose communication is based on their conspecifics' vocalizations ...
Communication with other members of one's species is not restricted to human language: most primates...
As a prerequisite for human speech vocal communication has been intensively investigated in various ...
In this review article, I propose a continuous evolution from the auditory-vocal apparatus and its m...
SummaryCommunication signals are important for social interactions and survival and are thought to r...
Neuroimaging studies have verified the important integrative role of the basal ganglia during affect...
Humans are adept at extracting affective information from vocalizations of humans and other animals....
Humans are known to have sophisticated control over speech sounds. The neural mechanisms underlying ...