Strategically switching between rapid and accurate decision-making requires a top-down regulation of the response criteria. However, the brain mechanisms important to smoothly change the speed-accuracy strategy trial-by-trial remain mostly unclear. This issue was addressed here by testing 12 right-handed volunteers (6 females, age: 19-39 years) using fMRI. On each trial, participants had to stress speed or accuracy in performing a color discrimination task on a target stimulus according to the instructions given by an initial cue. As the behavioral data showed, participants were capable of trading speed for accuracy and vice versa. Standard GLM whole-brain analyses on cue-related activations revealed a significant recruitment of left middle...
The difference between the speed of simple cognitive processes and the speed of complex cognitive pr...
This study investigated how the speed-accuracy balance is modulated by changes in the time course of...
When people make decisions they often face opposing demands for response speed and response accuracy...
Strategically switching between rapid and accurate decision-making requires a top-down regulation of...
Switching between rapid and accurate responses is an important aspect of decision-making. However, t...
People are able to trade off speed and accuracy when performing a task; that is, they can either foc...
AbstractThe ability to flexibly switch between fast and accurate decisions is crucial in everyday li...
The speed and accuracy of decision-making have a well-known trading relationship: hasty decisions ar...
The ability to flexibly switch between fast and accurate decisions is crucial in everyday life. Rece...
When people make decisions quickly, accuracy suffers. Traditionally, speed-accuracy tradeoffs (SATs)...
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)...
In reaction-time (RT) tasks with unequally probable stimuli, people respond faster and more accurate...
When people make decisions they often face opposing demands for response speed and response accuracy...
In reaction-time (RT) tasks with unequally probable stimuli, people respond faster and more accurate...
The difference between the speed of simple cognitive processes and the speed of complex cognitive pr...
This study investigated how the speed-accuracy balance is modulated by changes in the time course of...
When people make decisions they often face opposing demands for response speed and response accuracy...
Strategically switching between rapid and accurate decision-making requires a top-down regulation of...
Switching between rapid and accurate responses is an important aspect of decision-making. However, t...
People are able to trade off speed and accuracy when performing a task; that is, they can either foc...
AbstractThe ability to flexibly switch between fast and accurate decisions is crucial in everyday li...
The speed and accuracy of decision-making have a well-known trading relationship: hasty decisions ar...
The ability to flexibly switch between fast and accurate decisions is crucial in everyday life. Rece...
When people make decisions quickly, accuracy suffers. Traditionally, speed-accuracy tradeoffs (SATs)...
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)...
In reaction-time (RT) tasks with unequally probable stimuli, people respond faster and more accurate...
When people make decisions they often face opposing demands for response speed and response accuracy...
In reaction-time (RT) tasks with unequally probable stimuli, people respond faster and more accurate...
The difference between the speed of simple cognitive processes and the speed of complex cognitive pr...
This study investigated how the speed-accuracy balance is modulated by changes in the time course of...
When people make decisions they often face opposing demands for response speed and response accuracy...