人类节律运动中的混沌现象

Chaos in Human Rhythmic Movement.

作者信息

Mitra S, Riley M A, Turvey M T

机构信息

a Center for the Ecological Study of Perception and Action , University of Connecticut , Storrs.

出版信息

J Mot Behav. 1997 Sep;29(3):195-8. doi: 10.1080/00222899709600834.

DOI:10.1080/00222899709600834

PMID:12453778

Abstract

Rhythmic movements typical of locomotory actions are usually modeled as limit cycle dynamics, and their deviations from pure periodicity are attributed to stochastic physiological noise. In the present study, the dynamics of human rhythmic movements were found to contain more than the 2 dynamically active variables expected from limit cycle dynamics; the number depended upon the size of the limb oscillator. Observed positive Lyapunov exponents and fractal attractor dimensions indicated that the gross variability of human rhythmic movements may stem largely from low-dimensional chaotic motion on strange attractors.

摘要

典型的运动行为的节律性运动通常被建模为极限环动力学，而它们与纯周期性的偏差则归因于随机生理噪声。在本研究中，发现人类节律性运动的动力学包含的动态活跃变量多于极限环动力学预期的两个；其数量取决于肢体振荡器的大小。观察到的正李雅普诺夫指数和分形吸引子维度表明，人类节律性运动的总体变异性可能很大程度上源于奇异吸引子上的低维混沌运动。

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人类节律运动中的混沌现象

Chaos in Human Rhythmic Movement.

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人类节律运动中的混沌现象

Chaos in Human Rhythmic Movement.

作者信息

机构信息

出版信息

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