A Surrogate Technique for Investigating Deterministic Dynamics in Discrete Human Movement

in Motor Control
View More View Less
  • 1 Australian Catholic University
  • 2 University of Western Australia
  • 3 Australian Catholic University
Restricted access

Purchase article

USD  $24.95

Student 1 year online subscription

USD  $77.00

1 year online subscription

USD  $103.00

Student 2 year online subscription

USD  $147.00

2 year online subscription

USD  $195.00

Entropy is an effective tool for investigation of human movement variability. However, before applying entropy, it can be beneficial to employ analyses to confirm that observed data are not solely the result of stochastic processes. This can be achieved by contrasting observed data with that produced using surrogate methods. Unlike continuous movement, no appropriate method has been applied to discrete human movement. This article proposes a novel surrogate method for discrete movement data, outlining the processes for determining its critical values. The proposed technique reliably generated surrogates for discrete joint angle time series, destroying fine-scale dynamics of the observed signal, while maintaining macro structural characteristics. Comparison of entropy estimates indicated observed signals had greater regularity than surrogates and were not only the result of stochastic but also deterministic processes. The proposed surrogate method is both a valid and reliable technique to investigate determinism in other discrete human movement time series.

Taylor, Lee, Landeo, O’Meara, and Millett are with the School of Exercise Science, Australian Catholic University, Sydney, Australia. Small is with the School of Mathematics and Statistics, University of Western Australia, Perth, Australia.

Address author correspondence to Paul Taylor at paul.taylor@acu.edu.au.