Several plausible theories of the neural implementation of speed/accuracy trade‐off (SAT), the phenomenon in which individuals may alternately emphasize speed or accuracy during the performance of cognitive tasks, have been proposed, and multiple lines of evidence point to the involvement of the pre‐supplemental motor area (pre‐SMA). However, as the nature and directionality of the pre‐SMA’s functional connections to other regions involved in cognitive control and task processing are not known, its precise role in the top‐down control of SAT remains unclear. Although recent advances in cross‐sectional path modeling provide a promising way of characterizing these connections, such models are limited by their tendency to produce multiple equi...
Intelligent agents balance speed of responding with accuracy of deciding. Stochastic accumulator mod...
Evolutionary pressures suggest that choices should be optimised to maximise rewards, by appropriatel...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
This functional neuroimaging (fMRI) study examined the neural networks (spatial patterns of covaryin...
Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choic...
Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choic...
People are able to trade off speed and accuracy when performing a task; that is, they can either foc...
Recent computational models and physiological studies suggest that simple, two-alternative forced-ch...
Optimal decision-making requires balancing fast but error-prone and more accurate but slower decisio...
Everyone is familiar with the speed-accuracy trade-off (SAT). To make good choices, we need to balan...
Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when making decis...
Background: The speed-accuracy trade-off (SAT) refers to the balancing of speed versus accuracy duri...
BACKGROUND: The speed-accuracy trade-off (SAT) refers to the balancing of speed versus accuracy duri...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
When people make decisions they often face opposing demands for response speed and response accuracy...
Intelligent agents balance speed of responding with accuracy of deciding. Stochastic accumulator mod...
Evolutionary pressures suggest that choices should be optimised to maximise rewards, by appropriatel...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
This functional neuroimaging (fMRI) study examined the neural networks (spatial patterns of covaryin...
Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choic...
Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choic...
People are able to trade off speed and accuracy when performing a task; that is, they can either foc...
Recent computational models and physiological studies suggest that simple, two-alternative forced-ch...
Optimal decision-making requires balancing fast but error-prone and more accurate but slower decisio...
Everyone is familiar with the speed-accuracy trade-off (SAT). To make good choices, we need to balan...
Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when making decis...
Background: The speed-accuracy trade-off (SAT) refers to the balancing of speed versus accuracy duri...
BACKGROUND: The speed-accuracy trade-off (SAT) refers to the balancing of speed versus accuracy duri...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
When people make decisions they often face opposing demands for response speed and response accuracy...
Intelligent agents balance speed of responding with accuracy of deciding. Stochastic accumulator mod...
Evolutionary pressures suggest that choices should be optimised to maximise rewards, by appropriatel...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...