Nowadays, it is possible to record the activity of hundreds of cells at the same time in behaving animals. However, these data are often treated and analyzed as if they consisted of many independently recorded neurons. How can neuronal populations be uniquely used to learn about cognition? We describe recent work that shows that populations of simultaneously recorded neurons are fundamental to understand the basis of decision-making, including processes such as ongoing deliberations and decision confidence, which generally fall outside the reach of single-cell analysis. Thus, neuronal population data allow addressing novel questions, but they also come with so far unsolved challenges.Acknowledgements: This work has been supported by the Spa...
International audienceAll of our perceptual experiences arise from the activity of neural population...
Information processing in the nervous system involves the activity of large populations of neurons. ...
A key goal of neuroscience is to understand how the remarkable computational abilities of our brain ...
Nowadays, it is possible to record the activity of hundreds of cells at the same time in behaving an...
Cognitive behaviors originate in the responses of neuronal populations. We have a reasonable underst...
A long-standing question in systems neuroscience is how the activity of single neurons gives rise to...
Models and concepts of brain function have always been guided and limited by the available technique...
SummaryDecisions emerge from the concerted activity of neuronal populations distributed across brain...
Neuroimaging studies using positron emission tomography (PET) and functional magnetic resonance imag...
Cortical circuits combine new inputs with ongoing activity during a variety of behaviors, including ...
Modern recording techniques such as multi-electrode arrays and two-photon imaging methods are capabl...
Systems neuroscience is in a headlong rush to record from as many neurons at the same time as possib...
International audienceCortical activity involves large populations of neurons, even when it is limit...
SummaryStudying the neural basis of decision-making has largely taken one of two paths: one has invo...
The study of sensory signaling in the visual cortex has been greatly advanced by the recording of ne...
International audienceAll of our perceptual experiences arise from the activity of neural population...
Information processing in the nervous system involves the activity of large populations of neurons. ...
A key goal of neuroscience is to understand how the remarkable computational abilities of our brain ...
Nowadays, it is possible to record the activity of hundreds of cells at the same time in behaving an...
Cognitive behaviors originate in the responses of neuronal populations. We have a reasonable underst...
A long-standing question in systems neuroscience is how the activity of single neurons gives rise to...
Models and concepts of brain function have always been guided and limited by the available technique...
SummaryDecisions emerge from the concerted activity of neuronal populations distributed across brain...
Neuroimaging studies using positron emission tomography (PET) and functional magnetic resonance imag...
Cortical circuits combine new inputs with ongoing activity during a variety of behaviors, including ...
Modern recording techniques such as multi-electrode arrays and two-photon imaging methods are capabl...
Systems neuroscience is in a headlong rush to record from as many neurons at the same time as possib...
International audienceCortical activity involves large populations of neurons, even when it is limit...
SummaryStudying the neural basis of decision-making has largely taken one of two paths: one has invo...
The study of sensory signaling in the visual cortex has been greatly advanced by the recording of ne...
International audienceAll of our perceptual experiences arise from the activity of neural population...
Information processing in the nervous system involves the activity of large populations of neurons. ...
A key goal of neuroscience is to understand how the remarkable computational abilities of our brain ...