Add to ORKGThe question of how the collective activity of neural populations gives rise to complex behaviour is fundamental to neuroscience. At the core of this question lie considerations about how neural circuits can perform computations that enable sensory perception, decision making, and motor control. It is thought that such computations are implemented through the dynamical evolution of distributed activity in recurrent circuits. Thus, identifying dynamical structure in neural population activity is a key challenge towards a better understanding of neural computation. At the same time, interpreting this structure in light of the computation of interest is essential for linking the time-varying activity patterns of the neural population to ongoin...
There are more neurons in the human brain than seconds in a lifetime. Given this incredible number h...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
The question of how the collective activity of neural populations in the brain gives rise to complex...
In higher animals, complex and robust behaviors are produced by the microscopic details of large str...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
We are able to make robust movements, like walking and reaching, without a thought. Yet despite our ...
Two different perspectives have informed efforts to explain the link between the brain and behaviour...
Systems neuroscience is in a headlong rush to record from as many neurons at the same time as possib...
Recent developments in experimental neuroscience make it possible to simultaneously record the activ...
A growing body of research indicates that much of the brain’s computation is invisible from the acti...
Information is processed in the brain by the coordinated activity of large neural circuits. Yet, we...
The joint activity of neural populations is high dimensional and complex. One strategy for reaching ...
The joint activity of neural populations is high dimensional and complex. One strategy for reaching ...
There are more neurons in the human brain than seconds in a lifetime. Given this incredible number h...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
The question of how the collective activity of neural populations in the brain gives rise to complex...
In higher animals, complex and robust behaviors are produced by the microscopic details of large str...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
We are able to make robust movements, like walking and reaching, without a thought. Yet despite our ...
Two different perspectives have informed efforts to explain the link between the brain and behaviour...
Systems neuroscience is in a headlong rush to record from as many neurons at the same time as possib...
Recent developments in experimental neuroscience make it possible to simultaneously record the activ...
A growing body of research indicates that much of the brain’s computation is invisible from the acti...
Information is processed in the brain by the coordinated activity of large neural circuits. Yet, we...
The joint activity of neural populations is high dimensional and complex. One strategy for reaching ...
The joint activity of neural populations is high dimensional and complex. One strategy for reaching ...
There are more neurons in the human brain than seconds in a lifetime. Given this incredible number h...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...
Modern experimental technologies enable simultaneous recording of large neural populations. These hi...