Chaotic Dynamics of Neuromuscular System Parameters and the Problems of the Evolution of Complexity


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Abstract

The evolution rate v(t) varies among diverse biosystems, but a general theory can be formulated when the dynamics of the biosystem stater x = x(t) = (x1, x2, xm)T is considered in the m-dimensional space of states. A mathematical approach is proposed for evaluating such processes and describes the processes in terms of particular chaos of the statistical distribution functions f(x). In the case of complex multicomponent systems with a high dimension number m (m ≫1) of the phase space of states, we propose using pairwise comparison matrices of samples x(t) when homeostasis is constant and calculating the parameters of quasiattractors. The Glensdorff–Prigogine thermodynamic approach to estimating evolution is inefficient in assessing the third-type systems, while it is applicable and the Prigogine theorem works at the level of molecular systems. Alterations in the state of the human neuromuscular system were found to lead to chaotic changes in the statistical functions f(x) in tremor recording samples, while quasiattractor parameters demonstrate a certain regularity.

About the authors

V. V. Eskov

Surgut State University

Author for correspondence.
Email: valery.eskov@gmail.com
Russian Federation, Surgut, Khanty-Mansi Autonomous Okrug–Yugra, 626415

O. E. Filatova

Surgut State University

Email: valery.eskov@gmail.com
Russian Federation, Surgut, Khanty-Mansi Autonomous Okrug–Yugra, 626415

T. V. Gavrilenko

Surgut State University

Email: valery.eskov@gmail.com
Russian Federation, Surgut, Khanty-Mansi Autonomous Okrug–Yugra, 626415

D. V. Gorbunov

Surgut State University

Email: valery.eskov@gmail.com
Russian Federation, Surgut, Khanty-Mansi Autonomous Okrug–Yugra, 626415

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