Add to ORKGObjective. Hierarchical processing of auditory sensory information is believed to occur in two streams: a ventral stream responsible for stimulus identity and a dorsal stream responsible for processing spatial elements of a stimulus. The objective of the current study is to examine neural coding in this processing stream in the context of understanding the possibility for an auditory cortical neural prosthesis. Approach. We examined the selectivity for species-specific primate vocalizations in the ventral auditory processing stream by applying a statistical classifier to neural data recorded from microelectrode arrays. Multi-unit activity (MUA) and local field potential (LFP) data recorded simultaneously from primary auditory complex (AI) a...
AbstractRecent studies suggest that the auditory cortex may use sensory processing strategies analog...
Cognitive pathways supporting human language and declarative memory are thought to have uniquely evo...
Abstract Goal: Advances in computational models of biological systems and artificial neural networks...
Objective. Hierarchical processing of auditory sensory information is believed to occur in two strea...
The article discusses a study that focused on neural coding of temporal information and topography i...
There are functional and anatomical distinctions between the neural systems involved in the recognit...
Contains fulltext : 136102.pdf (publisher's version ) (Closed access)Primate senso...
Functionally distinct dorsal and ventral auditory pathways for sound localization (WHERE) and sound ...
Physical variability of speech combined with its perceptual constancy make speech recognition a chal...
In early stages of auditory processing, neurons faithfully encode acoustic features of sounds. As we...
One fundamental goal of the brain is to predict sensory events in the environment in order to spatia...
The ability to discriminate conspecific vocalizations is observed across species and early during de...
We are investigating how auditory and visual information are integrated in the neocortex by recordin...
The human auditory system is able to rapidly process incoming acoustic information, actively filteri...
The ability of the human brain to represent senses reliably and command a motor response is central ...
AbstractRecent studies suggest that the auditory cortex may use sensory processing strategies analog...
Cognitive pathways supporting human language and declarative memory are thought to have uniquely evo...
Abstract Goal: Advances in computational models of biological systems and artificial neural networks...
Objective. Hierarchical processing of auditory sensory information is believed to occur in two strea...
The article discusses a study that focused on neural coding of temporal information and topography i...
There are functional and anatomical distinctions between the neural systems involved in the recognit...
Contains fulltext : 136102.pdf (publisher's version ) (Closed access)Primate senso...
Functionally distinct dorsal and ventral auditory pathways for sound localization (WHERE) and sound ...
Physical variability of speech combined with its perceptual constancy make speech recognition a chal...
In early stages of auditory processing, neurons faithfully encode acoustic features of sounds. As we...
One fundamental goal of the brain is to predict sensory events in the environment in order to spatia...
The ability to discriminate conspecific vocalizations is observed across species and early during de...
We are investigating how auditory and visual information are integrated in the neocortex by recordin...
The human auditory system is able to rapidly process incoming acoustic information, actively filteri...
The ability of the human brain to represent senses reliably and command a motor response is central ...
AbstractRecent studies suggest that the auditory cortex may use sensory processing strategies analog...
Cognitive pathways supporting human language and declarative memory are thought to have uniquely evo...
Abstract Goal: Advances in computational models of biological systems and artificial neural networks...