Add to ORKGThe article discusses a study that focused on neural coding of temporal information and topography in the auditory cortex. The quest for a thorough understanding how highly complex stimuli are encoded poses a significant challenge for auditory neurosciences, such as human speech and animal vocal signals. The characteristics of cortical neurons have been attributed to the coding of temporal stimulus which features precise spike timing in the coding and firing rate of repetition sounds
A primary objective for cognitive neuroscience is to identify how features of the sensory environmen...
A central goal in auditory neuroscience is to understand the neural coding of species-specific commu...
The sensory cortices of the brain are highly complex systems that are uniquely adapted to reliably p...
Kazuo Imaizumi is with University of California San Francisco and Louisiana State University Health ...
Kazuo Imaizumi is with University of California San Francisco and Louisiana State University Health ...
Sound localization is important for orienting and focusing attention and for segregating sounds from...
In auditory cortex, temporal information within a sound is represented by two complementary neural c...
Sensation in natural environments requires the analysis of time-varying signals. While previous work...
In speech, listeners extract continuously-varying spectrotemporal cues from the acoustic signal to p...
Human listeners can reliably recognize speech in complex listening environments. The underlying neur...
The ability of the brain to extract meaningful information from complex sounds is what allows mammal...
Natural sounds such as communication signals and music are composed of complex temporal features tha...
We review the role of oscillations in the brain and in the auditory system showing that the ability ...
Natural sounds such as communication signals and music are composed of complex temporal features tha...
A central goal in auditory neuroscience is to understand the neural coding of species-specific commu...
A primary objective for cognitive neuroscience is to identify how features of the sensory environmen...
A central goal in auditory neuroscience is to understand the neural coding of species-specific commu...
The sensory cortices of the brain are highly complex systems that are uniquely adapted to reliably p...
Kazuo Imaizumi is with University of California San Francisco and Louisiana State University Health ...
Kazuo Imaizumi is with University of California San Francisco and Louisiana State University Health ...
Sound localization is important for orienting and focusing attention and for segregating sounds from...
In auditory cortex, temporal information within a sound is represented by two complementary neural c...
Sensation in natural environments requires the analysis of time-varying signals. While previous work...
In speech, listeners extract continuously-varying spectrotemporal cues from the acoustic signal to p...
Human listeners can reliably recognize speech in complex listening environments. The underlying neur...
The ability of the brain to extract meaningful information from complex sounds is what allows mammal...
Natural sounds such as communication signals and music are composed of complex temporal features tha...
We review the role of oscillations in the brain and in the auditory system showing that the ability ...
Natural sounds such as communication signals and music are composed of complex temporal features tha...
A central goal in auditory neuroscience is to understand the neural coding of species-specific commu...
A primary objective for cognitive neuroscience is to identify how features of the sensory environmen...
A central goal in auditory neuroscience is to understand the neural coding of species-specific commu...
The sensory cortices of the brain are highly complex systems that are uniquely adapted to reliably p...