Changes in the correlated activity in the population code can increase neural discrimination by facilitating noise suppression. In this issue, Jeanne et al. (2013) observe learning-dependent changes in high-level avian auditory cortical neurons after a song discrimination task
<div><p>Given the extraordinary ability of humans and animals to recognize communication signals ove...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
Changes in the correlated activity in the population code can increase neural discrimination by faci...
SummaryLearning-dependent cortical encoding has been well described in single neurons. But behaviora...
Noise correlations (rnoise) betweenneurons can affect a neural population’s discrimination capacity,...
The ability to learn to recognize new sensory signals such as voices or faces is an important cognit...
<p>A. Mutual Information for neuronal ensembles of two to ten neurons for the control and the wn-rea...
SummarySongbird auditory neurons must encode the dynamics of natural sounds at many volumes. We inve...
Animals and humans are able to communicate vocally in very challenging acoustic conditions. Backgrou...
Songbirds, like humans, learn to produce and to recognize complex, species-specific sounds, providin...
Summary: The categorization of animal vocalizations into distinct behaviorally relevant groups for c...
Previous research has shown that postnatal exposure to simple, synthetic sounds can affect the sound...
Physiological studies in vocal animals such as songbirds indicate that vocalizations drive auditory ...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
<div><p>Given the extraordinary ability of humans and animals to recognize communication signals ove...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
Changes in the correlated activity in the population code can increase neural discrimination by faci...
SummaryLearning-dependent cortical encoding has been well described in single neurons. But behaviora...
Noise correlations (rnoise) betweenneurons can affect a neural population’s discrimination capacity,...
The ability to learn to recognize new sensory signals such as voices or faces is an important cognit...
<p>A. Mutual Information for neuronal ensembles of two to ten neurons for the control and the wn-rea...
SummarySongbird auditory neurons must encode the dynamics of natural sounds at many volumes. We inve...
Animals and humans are able to communicate vocally in very challenging acoustic conditions. Backgrou...
Songbirds, like humans, learn to produce and to recognize complex, species-specific sounds, providin...
Summary: The categorization of animal vocalizations into distinct behaviorally relevant groups for c...
Previous research has shown that postnatal exposure to simple, synthetic sounds can affect the sound...
Physiological studies in vocal animals such as songbirds indicate that vocalizations drive auditory ...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
<div><p>Given the extraordinary ability of humans and animals to recognize communication signals ove...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
Given the extraordinary ability of humans and animals to recognize communication signals over a back...
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