Search Results - "Eskov, V. M."

Automation of the Diagnosis of Age-Related Changes in Parameters of the Cardiovascular System by Leonov, B. I., Grigorenko, V. V., Eskov, V. M., Khadartsev, A. A., Ilyashenko, L. K.

“…An algorithm for calculating the dynamics of age-related changes in parameters of the cardiovascular system of humans in the North of the Russian Federation…”
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Experimental Study of Statistical Stability of Cardiointerval Samples by Zilov, V. G., Khadartsev, A. A., Eskov, V. V., Eskov, V. M.

“…In 1947 M. A. Bernstein proposed a hypothesis about “repetition without repetition” in biomechanics that was confirmed in psychophysiology by the…”
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Phenomenon of statistical instability of the third type systems—complexity by Eskov, V. V., Gavrilenko, T. V., Eskov, V. M., Vokhmina, Yu. V.

“…The problem of the existence and special properties of third type systems has been formulated within the new chaos–self-organization theory. In fact, a global…”
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Experimental Verification of the Bernstein Effect “Repetition without Repetition” by Zilov, V. G., Eskov, V. M., Khadartsev, A. A., Eskov, V. V.

“…The necessity of studying the Bernstein effect “repetition without repetition” is dictated by the absence of quantitative description of this effect and models…”
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New Effect in Physiology of Human Nervous Muscle System by Zilov, V. G., Khadartsev, A. A., Eskov, V. M., Ilyashenko, L. K.

“…A new phenomenon (or paradox) consisting in higher statistical stability of samples, for example, tremorograms, in a group of different subjects than in the…”
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Shannon entropy in the research on stationary regimes and the evolution of complexity by Eskov, V. M., Eskov, V. V., Vochmina, Yu. V., Gorbunov, D. V., Ilyashenko, L. K.

“…The questions of the identification of complex biological systems (complexity) as special self-organizing systems or systems of the third type first defined by…”
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Stochastic volatility in the dynamics of complex homeostatic systems by Betelin, V. B., Eskov, V. M., Galkin, V. A., Gavrilenko, T. V.

“…A description of complex biological systems based on simulating the dynamics of chaotic systems is proposed. For homeostatic biosystems, we define the concept…”
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Chaotic dynamics of cardio intervals in three age groups of indigenous and nonindigenous populations of Ugra by Eskov, V. M., Khadartsev, A. A., Eskov, V. V., Vokhmina, J. V.

“…The issue of the life expectancy of indigenous and nonindigenous populations of the northern territories in the Russian Federation is analyzed in terms of…”
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Measurement of Chaotic Dynamics for Two Types of Tapping as Voluntary Movements by Eskov, V. M., Gavrilenko, T. V., Vokhmina, Yu. V., Zimin, M. I., Filatov, M. A.

“…We present examples for representation of chaos parameters in clinical medicine, and we demonstrate their diagnostic value. We show that in measuring motor…”
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Neurocomputational identification of order parameters in gerontology by Eskov, V. M., Eskov, V. V., Filatova, O. E., Khadartsev, A. A., Sinenko, D. V.

“…The fallacy of using a neuroemulator only once or with a small number of iterations ( p ≤ 50) to solve the group-separation problem (a binary classification…”
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Measurement of the dynamic parameters of microchaos in the behavior of living biosystems by Eskov, V. M., Gavrilenko, T. V., Kozlova, V. V., Filatov, M. A.

“…New approaches to measurement and modeling of the parameters of complex biosystems are presented. Concrete examples from the field of physiology and…”
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Measuring Order Parameters Based on Neural Network Technologies by Vokhmina, Yu. V., Eskov, V. M., Gavrilenko, T. V., Filatova, O. E.

“…We show convergence of a procedure for multiple training of a neural network, when during multiple repetitions of the solution of a binary classification task…”
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Determination of the degree of synergism of the human cardiorespiratory system under conditions of physical effort by Eskov, V. M., Eskov, V. V., Braginskii, M. Ya, Pashnin, A. S.

“…The emergence of a third paradigm, the synergistic paradigm, in general systems theory and the relationship between the synergistic and the cybernetic…”
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Characteristic features of measurements and modeling for biosystems in phase spaces of states by Eskov, V. M., Eskov, V. V., Filatova, O. E.

“…We have identified five special properties of biological systems requiring development of new synergistic study methods. We consider the possibility of…”
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The Evolution of the idea of homeostasis: Determinism, stochastics, and chaos–self-organization by Eskov, V. M., Filatova, O. E., Eskov, V. V., Gavrilenko, T. V.

“…Homeostasis is a basic concept in investigating all living systems. Homeostasis and life are synonyms to a certain extent. The concept of homeostasis has been…”
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The Heuristic Work of the Brain and Artificial Neural Networks by Eskov, V. M., Pyatin, V. F., Eskov, V. V., Ilyashenko, L. K.

“…This paper presents two new fundamental principles of the functioning of real neural networks of the brain. These principles have inspired the design of…”
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Formalization of the effect of “repetition without repetition” discovered by N.A. Bernshtein by Eskov, V. M., Eskov, V. V., Gavrilenko, T. V., Vochmina, Yu. V.

“…No adequate models for the effect of “repetition without repetition,” as discovered by N.A. Bernshtein in 1947, have been developed. This problem goes beyond…”
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Computer technologies in stability measurements on stationary states in dynamic biological systems by Es'kov, V. M., Kulaev, S. V., Popov, Yu. M., Filatova, O. E.

“…A mathematical treatment is given for the concept of steady state in a dynamic biological system. Advantages are discussed of identifying biosystems in this…”
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Biosystem kinematics as evolution: Stationary modes and movement speed of complex systems: Complexity by Eskov, V. M., Eskov, V. V., Gavrilenko, T. V., Vochmina, J. V.

“…It is proposed to construct the kinematics of complex systems (systems of the third type) based on simulation of the motion of the state vector of the system x…”
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The evolution of the chaotic dynamics of collective modes as a method for the behavioral description of living systems by Eskov, V. M., Eskov, V. V., Vochmina, J. V., Gavrilenko, T. V.

“…Human-scaled (in complexity) systems possess a unique feature, viz., the continuous random motion of many components of the state vector x = x ( t ) of such…”
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