International audienceEvolutionary pressures suggest that choices should be optimized to maximize rewards, by appropriately trading speed for accuracy. This speed-accuracy tradeoff (SAT) is commonly explained by variation in just the baseline-to-boundary distance, i.e., the excursion, of accumulation-to-bound models of perceptual decision-making. However, neural evidence is not consistent with this explanation. A compelling account of speeded choice should explain both overt behavior and the full range of associated brain signatures. Here, we reconcile seemingly contradictory behavioral and neural findings. In two variants of the same experiment, we triangulated upon the neural underpinnings of the SAT in the human brain using both EEG and ...
Optimal decision-making requires balancing fast but error-prone and more accurate but slower decisio...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...
Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choic...
Evolutionary pressures suggest that choices should be optimised to maximise rewards, by appropriatel...
Everyone is familiar with the speed-accuracy trade-off (SAT). To make good choices, we need to balan...
<div><p>Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when maki...
A key goal in the study of decision making is determining how neural networks involved in perception...
Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when making decis...
Recent computational models and physiological studies suggest that simple, two-alternative forced-ch...
The speed and accuracy of decision-making have a well-known trading relationship: hasty decisions ar...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
People are able to trade off speed and accuracy when performing a task; that is, they can either foc...
Humans and other animals are able to adjust their speed-accuracy tradeoff (SAT) at will depending on...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
Humans and other animals are able to adjust their speed-accuracy trade-off (SAT) at will depending o...
Optimal decision-making requires balancing fast but error-prone and more accurate but slower decisio...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...
Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choic...
Evolutionary pressures suggest that choices should be optimised to maximise rewards, by appropriatel...
Everyone is familiar with the speed-accuracy trade-off (SAT). To make good choices, we need to balan...
<div><p>Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when maki...
A key goal in the study of decision making is determining how neural networks involved in perception...
Speed-accuracy tradeoff (SAT) is an adaptive process balancing urgency and caution when making decis...
Recent computational models and physiological studies suggest that simple, two-alternative forced-ch...
The speed and accuracy of decision-making have a well-known trading relationship: hasty decisions ar...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
People are able to trade off speed and accuracy when performing a task; that is, they can either foc...
Humans and other animals are able to adjust their speed-accuracy tradeoff (SAT) at will depending on...
When people make decisions quickly, accuracy suffers. Traditionally, speed–accuracy tradeoffs (SATs)...
Humans and other animals are able to adjust their speed-accuracy trade-off (SAT) at will depending o...
Optimal decision-making requires balancing fast but error-prone and more accurate but slower decisio...
For decisions made under time pressure, effective decision making based on uncertain or ambiguous ev...
Many perceptual decisions are inevitably subject to the tradeoff between speed and accuracy of choic...