textLateral intraparietal area (LIP) neurons are thought to compute the decision of where to look. Specifically, their firing rate is thought to represent accumulated evidence for a decision by ramping up to a high level, the putative decision bound, before an eye movement to a given location. However, LIP neurons are also highly responsive to visual stimuli. Because all previous research put a visual stimulus (a saccadic target) in the response field (RF) location of a neuron during decision formation, it is unknown if LIP neurons can still show decision computation without this visual drive. We therefore recorded the spiking activity of LIP neurons in a conventional decision task where a monkey decides the direction of a noisy motion stim...
Recent neurophysiological studies in awake, behaving primates have revealed that neurons in certain ...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
The macaque lateral intraparietal area (LIP) has been implicated in many cognitive processes, rangin...
Previouswork has revealed a remarkably direct neural correlate of decisions in the lateral intrapari...
Katz and colleagues demonstrate that inactivating the primate lateral intraparietal area (LIP) spare...
given visual-field location fire at a rate proportional to that location’s current draw on attention...
International audienceDecisions about the behavioral significance of sensory stimuli often require c...
Decision-making is a hallmark of higher-order cognitive processing. The neural substrates of decisio...
Decisions are often made by accumulating evidence for and against the alternatives. The momentary ev...
Recordings in the lateral intraparietal area (LIP) reveal that parietal cortex encodes variables rel...
During simple perceptual decisions, sensorimotor neurons in monkey fronto-parietal cortex represent ...
Recent research has accumulated insights into the neural processes underlying perceptual decision ma...
Single neurons in cortical area LIP are known to carry information relevant to both sensory and valu...
Value information is a critical component of the decision-making process. In the lateral intrapariet...
AbstractRecent physiological studies of alert primates have revealed cortical neural correlates of k...
Recent neurophysiological studies in awake, behaving primates have revealed that neurons in certain ...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
The macaque lateral intraparietal area (LIP) has been implicated in many cognitive processes, rangin...
Previouswork has revealed a remarkably direct neural correlate of decisions in the lateral intrapari...
Katz and colleagues demonstrate that inactivating the primate lateral intraparietal area (LIP) spare...
given visual-field location fire at a rate proportional to that location’s current draw on attention...
International audienceDecisions about the behavioral significance of sensory stimuli often require c...
Decision-making is a hallmark of higher-order cognitive processing. The neural substrates of decisio...
Decisions are often made by accumulating evidence for and against the alternatives. The momentary ev...
Recordings in the lateral intraparietal area (LIP) reveal that parietal cortex encodes variables rel...
During simple perceptual decisions, sensorimotor neurons in monkey fronto-parietal cortex represent ...
Recent research has accumulated insights into the neural processes underlying perceptual decision ma...
Single neurons in cortical area LIP are known to carry information relevant to both sensory and valu...
Value information is a critical component of the decision-making process. In the lateral intrapariet...
AbstractRecent physiological studies of alert primates have revealed cortical neural correlates of k...
Recent neurophysiological studies in awake, behaving primates have revealed that neurons in certain ...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
The macaque lateral intraparietal area (LIP) has been implicated in many cognitive processes, rangin...