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Journal Article

Citation

Bruijn SM, Bregman DJJ, Meijer OG, Beek PJ, van Dieen JH. J. Biomech. 2011; 44(13): 2401-2408.

Affiliation

Motor Control Laboratory, Research Center for Movement Control and Neuroplasticity, Department of Biomedical Kinesiology, K.U. Leuven, Belgium; Research Institute MOVE, Faculty of Human Movement Sciences, VU University, Amsterdam, The Netherlands.

Copyright

(Copyright © 2011, Elsevier Publishing)

DOI

10.1016/j.jbiomech.2011.06.031

PMID

21762919

Abstract

Measures calculated from unperturbed walking patterns, such as variability measures and maximum Floquet multipliers, are often used to study the stability of walking. However, it is unknown if, and to what extent, these measures correlate to the probability of falling. We studied whether in a simple model of human walking, i.e., a passive dynamic walker, the probability of falling could be predicted from maximum Floquet multipliers, kinematic state variability, and step time variability. We used an extended version of the basic passive dynamic walker with arced feet and a hip spring. The probability of falling was manipulated by varying the foot radius and hip spring stiffness, or varying these factors while co-varying the slope to keep step length constant. The simulation data indicated that Floquet multipliers and kinematic state variability correlated inconsistently with probability of falling. Step time variability correlated well with probability of falling, but a more consistent correlation with the probability of falling was found by calculating the variability of the log transform of the step time. Our findings speak against the use of maximum Floquet multipliers and suggest instead that variability of critical variables may be a good predictor of the probability to fall.


Language: en

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