The study of sensory signaling in the visual cortex has been greatly advanced by the recording of neural activity simultaneously with the performance of a specific psychophysical task. Individual nerve cells may also increase their firing leading up to the particular choice or decision made on a single psychophysical trial. Understanding these signals is important because they have been taken as evidence that a particular nerve cell or group of nerve cells in the cortex is involved in the formation of the perceptual decision ultimately signaled by the organism. However, recent analyses show that the size of a decision-related change in firing in a particular neuron is not a secure basis for concluding anything about the contribution of a si...
Human modern life entails the need to make many abstract, deliberative decisions such as selecting a...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
Goal-directed behavior requires the flexible transformation of sensory evidence about our environmen...
Perceptual decision making (PDM) involves choosing one option among several on the basis of sensory ...
In the past two decades, sensory neuroscience has moved from describing response properties to exter...
AbstractRecent physiological studies of alert primates have revealed cortical neural correlates of k...
How does the brain make decisions? Speed and accuracy of perceptual decisions covary with certainty ...
The relationship between single neuronal activity in area MT and motion perception is a well studied...
AbstractFresh evidence about how cells in frontal cortex make decisions has come from experiments in...
Perceptual decisions involve a complex interaction of several brain areas. The neocortex is thought ...
A long-standing question in systems neuroscience is how the activity of single neurons gives rise to...
textLateral intraparietal area (LIP) neurons are thought to compute the decision of where to look. S...
Recent research has accumulated insights into the neural processes underlying perceptual decision ma...
In order to isolate the neuronal activity that relates to the making of perceptual decisions, we hav...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
Human modern life entails the need to make many abstract, deliberative decisions such as selecting a...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
Goal-directed behavior requires the flexible transformation of sensory evidence about our environmen...
Perceptual decision making (PDM) involves choosing one option among several on the basis of sensory ...
In the past two decades, sensory neuroscience has moved from describing response properties to exter...
AbstractRecent physiological studies of alert primates have revealed cortical neural correlates of k...
How does the brain make decisions? Speed and accuracy of perceptual decisions covary with certainty ...
The relationship between single neuronal activity in area MT and motion perception is a well studied...
AbstractFresh evidence about how cells in frontal cortex make decisions has come from experiments in...
Perceptual decisions involve a complex interaction of several brain areas. The neocortex is thought ...
A long-standing question in systems neuroscience is how the activity of single neurons gives rise to...
textLateral intraparietal area (LIP) neurons are thought to compute the decision of where to look. S...
Recent research has accumulated insights into the neural processes underlying perceptual decision ma...
In order to isolate the neuronal activity that relates to the making of perceptual decisions, we hav...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
Human modern life entails the need to make many abstract, deliberative decisions such as selecting a...
Inhibitory neurons, which play a critical role in decision-making models, are often simplified as a ...
Goal-directed behavior requires the flexible transformation of sensory evidence about our environmen...