Most psychological models of perceptual decision making are of the accumulation-to- threshold variety. The neural basis of accumulation in parietal and prefrontal cortex is therefore a topic of great interest in neuroscience. In contrast, threshold mechanisms have received less attention, and their neural basis has usually been sought in subcortical structures. Here I analyze a model of a decision threshold that can be implemented in the same cortical areas as evidence accumulators, and whose behavior bears on two open questions in decision neuroscience: (1) When ramping activity is observed in a brain region during decision making, does it reflect evidence accumulation? (2) Are changes in speed-accuracy tradeoffs and response biases more l...
During perceptual decision-making tasks, centroparietal electroencephalographic (EEG) potentials rep...
Thesis (Ph.D.)--University of Washington, 2014Difficult decisions often require evaluation of sample...
We frequently need to make timely decisions based on sensory evidence that is weak, ambiguous, or no...
Most psychological models of perceptual decision making are of the accumulation-to-threshold variety...
Many perceptual decision making models posit that participants accumulate noisy evidence over time t...
Models of evidence accumulation have been very successful at describing human decision making behavi...
<div><p>Many perceptual decision making models posit that participants accumulate noisy evidence ove...
This thesis investigates the neural basis of the decision threshold. The neural basis of decision ma...
A common assumption in choice response time (RT) modeling is that after evidence accumulation reache...
Many perceptual decision making models posit that participants accumulate noisy evidence over time t...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when making decis...
Despite the complexity and variability of decision processes, motor responses are generally stereoty...
<div><p>Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when maki...
The dominant theoretical paradigm in explaining decision making throughout both neuroscience and cog...
During perceptual decision-making tasks, centroparietal electroencephalographic (EEG) potentials rep...
Thesis (Ph.D.)--University of Washington, 2014Difficult decisions often require evaluation of sample...
We frequently need to make timely decisions based on sensory evidence that is weak, ambiguous, or no...
Most psychological models of perceptual decision making are of the accumulation-to-threshold variety...
Many perceptual decision making models posit that participants accumulate noisy evidence over time t...
Models of evidence accumulation have been very successful at describing human decision making behavi...
<div><p>Many perceptual decision making models posit that participants accumulate noisy evidence ove...
This thesis investigates the neural basis of the decision threshold. The neural basis of decision ma...
A common assumption in choice response time (RT) modeling is that after evidence accumulation reache...
Many perceptual decision making models posit that participants accumulate noisy evidence over time t...
As we interact with the world, we must decide what to do next based on previously acquired and incom...
Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when making decis...
Despite the complexity and variability of decision processes, motor responses are generally stereoty...
<div><p>Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when maki...
The dominant theoretical paradigm in explaining decision making throughout both neuroscience and cog...
During perceptual decision-making tasks, centroparietal electroencephalographic (EEG) potentials rep...
Thesis (Ph.D.)--University of Washington, 2014Difficult decisions often require evaluation of sample...
We frequently need to make timely decisions based on sensory evidence that is weak, ambiguous, or no...