Temporal complexity measure of reaction time series: Operational versus event time

Author:

Mahmoodi Korosh12ORCID,Kerick Scott E.1,Grigolini Paolo2,Franaszczuk Piotr J.13,West Bruce J.24

Affiliation:

1. US Combat Capabilities Command Army Research Laboratory, Aberdeen Proving Ground Aberdeen Maryland USA

2. Center for Nonlinear Science University of North Texas Denton Texas USA

3. Department of Neurology Johns Hopkins University School of Medicine Baltimore Maryland USA

4. Office of Research and Innovation North Carolina State University Raleigh North Carolina USA

Abstract

AbstractIntroductionDetrended fluctuation analysis (DFA) is a well‐established method to evaluate scaling indices of time series, which categorize the dynamics of complex systems. In the literature, DFA has been used to study the fluctuations of reaction time Y(n) time series, where n is the trial number.MethodsHerein we propose treating each reaction time as a duration time that changes the representation from operational (trial number) time n to event (temporal) time t, or X(t). The DFA algorithm was then applied to the X(t) time series to evaluate scaling indices. The dataset analyzed is based on a Go–NoGo shooting task that was performed by 30 participants under low and high time‐stress conditions in each of six repeated sessions over a 3‐week period.ResultsThis new perspective leads to quantitatively better results in (1) differentiating scaling indices between low versus high time‐stress conditions and (2) predicting task performance outcomes.ConclusionWe show that by changing from operational time to event time, the DFA allows discrimination of time‐stress conditions and predicts performance outcomes.

Funder

Army Research Laboratory

Publisher

Wiley

Subject

Behavioral Neuroscience

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