When does the brain know that a decision is difficult to make? How does decision difficulty affect the allocation of neural resources and timing of constituent cortical processing? Here, we use single-trial analysis of electroencephalography (EEG) to identify neural correlates of decision difficulty and relate these to neural correlates of decision accuracy. Using a cued paradigm, we show that we can identify a component in the EEG that reflects the inherent task difficulty and not simply a correlation with the stimulus. We find that this decision difficulty component arises ≈220 ms after stimulus presentation, between two EEG components that are predictive of decision accuracy [an “early” (170 ms) and a “late” (≈300 ms) component]. We use ...
According to sequential sampling models, perceptual decision-making is based on accumulation of nois...
A fundamental feature of how we make decisions is that our responses are variable in the choices we ...
At any given moment, the human brain receives a barrage of noisy sensory signals that convey importa...
When does the brain know that a decision is difficult to make? How does decision difficulty affect t...
Single-unit and multiunit recordings in primates have already established that decision making invol...
Single-unit and multiunit recordings in primates have already established that decision making invol...
Perceptual decision making is a cognitive process that involves transforming sensory evidence into a...
Perceptual decision making is believed to be driven by the accumulation of sensory evidence followin...
BACKGROUND: Recent neuroimaging studies suggest that value-based decision-making may rely on mechani...
The cognitive process and time course of quick human decision making was evaluated using reaction ti...
Sequential sampling decision-making models have been successful in accounting for reaction time (RT)...
Decision-making in an uncertain environment is driven by two major needs: exploring the environment ...
Encoding of a sensory stimulus is believed to be the first step in perceptual decision making. Previ...
Decision-making in an uncertain environment is driven by two major needs: exploring the environment ...
It is known that cortical networks operate on the edge of instability, in which oscillations can app...
According to sequential sampling models, perceptual decision-making is based on accumulation of nois...
A fundamental feature of how we make decisions is that our responses are variable in the choices we ...
At any given moment, the human brain receives a barrage of noisy sensory signals that convey importa...
When does the brain know that a decision is difficult to make? How does decision difficulty affect t...
Single-unit and multiunit recordings in primates have already established that decision making invol...
Single-unit and multiunit recordings in primates have already established that decision making invol...
Perceptual decision making is a cognitive process that involves transforming sensory evidence into a...
Perceptual decision making is believed to be driven by the accumulation of sensory evidence followin...
BACKGROUND: Recent neuroimaging studies suggest that value-based decision-making may rely on mechani...
The cognitive process and time course of quick human decision making was evaluated using reaction ti...
Sequential sampling decision-making models have been successful in accounting for reaction time (RT)...
Decision-making in an uncertain environment is driven by two major needs: exploring the environment ...
Encoding of a sensory stimulus is believed to be the first step in perceptual decision making. Previ...
Decision-making in an uncertain environment is driven by two major needs: exploring the environment ...
It is known that cortical networks operate on the edge of instability, in which oscillations can app...
According to sequential sampling models, perceptual decision-making is based on accumulation of nois...
A fundamental feature of how we make decisions is that our responses are variable in the choices we ...
At any given moment, the human brain receives a barrage of noisy sensory signals that convey importa...