Response time (RT) is a commonly used measure of cognitive performance, which is usually characterized as stochastic. However, useful information may be hidden in the apparently random fluctuations of RT. Dynamical systems analysis techniques allow an exploration of the alternative hypothesis that RT fluctuations are deterministic, albeit in a complex manner. We applied careful task construction and noise-reduction and surrogate series tests to show that RT series from a forced-pace serial response-time task have low-dimensional chaotic characteristics. In Experiment 1, 80% of subjects' filtered RT series had low dimensionality, sensitive dependence on initial conditions, spectra close to 1/f, and stable attractor geometry across sessions. ...
Measurements of response time (RT) have long been used to infer neural processes underlying various ...
A response mechanism takes evaluations of the importance of potential actions and selects the most s...
AbstractLarge variability between individual response times, even in identical conditions, is a ubiq...
The aim of this study was to find out whether observed time series of complex reaction time (CRT) an...
Response time (RT) is an oft-reported behavioral measure in psychological and neurocognitive experim...
Response time (RT) is an oft-reported behavioral measure in psychological and neurocognitive experim...
Response time (RT) is an oft-used but ”noisy” behavioral measure in psychology. Here, we combine mod...
Previous single-unit recordings in monkeys showed that essential information regarding a decision is...
In serial choice reaction time (RT) tasks, performance in each trial critically depends on the seque...
Human cognition is fundamentally noisy. While routinely regarded as a nuisance in experimental inves...
The dynamics of a wide range of real systems, from email patterns to earthquakes, display a bursty,...
This paper investigates the usefulness of non-choice data, namely response times, as a predictor of ...
<div><p>Measurements of response time (RT) have long been used to infer neural processes underlying ...
This paper investigates the usefulness of non-choice data, namely response times, as a predictor of ...
Traditionally, variability in reaction time (RT) is usually interpreted as random error of measureme...
Measurements of response time (RT) have long been used to infer neural processes underlying various ...
A response mechanism takes evaluations of the importance of potential actions and selects the most s...
AbstractLarge variability between individual response times, even in identical conditions, is a ubiq...
The aim of this study was to find out whether observed time series of complex reaction time (CRT) an...
Response time (RT) is an oft-reported behavioral measure in psychological and neurocognitive experim...
Response time (RT) is an oft-reported behavioral measure in psychological and neurocognitive experim...
Response time (RT) is an oft-used but ”noisy” behavioral measure in psychology. Here, we combine mod...
Previous single-unit recordings in monkeys showed that essential information regarding a decision is...
In serial choice reaction time (RT) tasks, performance in each trial critically depends on the seque...
Human cognition is fundamentally noisy. While routinely regarded as a nuisance in experimental inves...
The dynamics of a wide range of real systems, from email patterns to earthquakes, display a bursty,...
This paper investigates the usefulness of non-choice data, namely response times, as a predictor of ...
<div><p>Measurements of response time (RT) have long been used to infer neural processes underlying ...
This paper investigates the usefulness of non-choice data, namely response times, as a predictor of ...
Traditionally, variability in reaction time (RT) is usually interpreted as random error of measureme...
Measurements of response time (RT) have long been used to infer neural processes underlying various ...
A response mechanism takes evaluations of the importance of potential actions and selects the most s...
AbstractLarge variability between individual response times, even in identical conditions, is a ubiq...