Decisions are often made by accumulating evidence for and against the alternatives. The momentary evidence represented by sensory neurons is accumulated by downstream structures to form a decision variable, linking the evolving decision to the formation of a motor plan. When decisions are communicated by eye movements, neurons in the lateral intraparietal area (LIP) represent the accumulation of evidence bearing on the potential targets for saccades. We now show that reach-related neurons from the medial intraparietal area (MIP) exhibit a gradual modulation of their firing rates consistent with the representation of an evolving decision variable. When decisions were communicated by saccades instead of reaches, decision-related activity was ...
The extent to which different cognitive processes are “embodied” is widely debated. Previous studies...
Perceptual decision making in monkeys relies on decision neurons, which accumulate evidence and main...
Decision-making is a hallmark of higher-order cognitive processing. The neural substrates of decisio...
textLateral intraparietal area (LIP) neurons are thought to compute the decision of where to look. S...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
Previouswork has revealed a remarkably direct neural correlate of decisions in the lateral intrapari...
The neural mechanism underlying simple perceptual decision-making in monkeys has been recently conce...
Recent research has accumulated insights into the neural processes underlying perceptual decision ma...
Recordings in the lateral intraparietal area (LIP) reveal that parietal cortex encodes variables rel...
Interaction within the environment relies on the ability to accumulate sensory evidence in favor of ...
Thesis (Ph.D.)--University of Washington, 2014Difficult decisions often require evaluation of sample...
<div><p>Perceptual decision making in monkeys relies on decision neurons, which accumulate evidence ...
During simple perceptual decisions, sensorimotor neurons in monkey fronto-parietal cortex represent ...
Single neurons in cortical area LIP are known to carry information relevant to both sensory and valu...
The extent to which different cognitive processes are “embodied” is widely debated. Previous studies...
The extent to which different cognitive processes are “embodied” is widely debated. Previous studies...
Perceptual decision making in monkeys relies on decision neurons, which accumulate evidence and main...
Decision-making is a hallmark of higher-order cognitive processing. The neural substrates of decisio...
textLateral intraparietal area (LIP) neurons are thought to compute the decision of where to look. S...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
Previouswork has revealed a remarkably direct neural correlate of decisions in the lateral intrapari...
The neural mechanism underlying simple perceptual decision-making in monkeys has been recently conce...
Recent research has accumulated insights into the neural processes underlying perceptual decision ma...
Recordings in the lateral intraparietal area (LIP) reveal that parietal cortex encodes variables rel...
Interaction within the environment relies on the ability to accumulate sensory evidence in favor of ...
Thesis (Ph.D.)--University of Washington, 2014Difficult decisions often require evaluation of sample...
<div><p>Perceptual decision making in monkeys relies on decision neurons, which accumulate evidence ...
During simple perceptual decisions, sensorimotor neurons in monkey fronto-parietal cortex represent ...
Single neurons in cortical area LIP are known to carry information relevant to both sensory and valu...
The extent to which different cognitive processes are “embodied” is widely debated. Previous studies...
The extent to which different cognitive processes are “embodied” is widely debated. Previous studies...
Perceptual decision making in monkeys relies on decision neurons, which accumulate evidence and main...
Decision-making is a hallmark of higher-order cognitive processing. The neural substrates of decisio...