Abstract and keywords
Abstract (English):
. Potential application of traditional and stochastic methods in assessment of parameters of complex biosystem – complexity is presented. Their amplitude-frequency characteristics, autocorrelation functions A(t), Lyapunov exponents, statistical distribution function f(x) constantly change. In spite of such chaotic dynamics in recorded parameters of tremor, tapping, cardiograms, myograms and other parameters of homeostasis, an order in the dynamics of these processes can be observed. The order is revealed in a change of numbers of sample overlaps that are obtained as a result of some processes. Owing to all the stochastic characteristics constantly change, calculation method for statistical distribution functions with repetitions of identical experimental sets is proposed. In this case, number of sample overlaps (their belonging to the same general population) will numerically present the transition mechanism to order out of chaos or the variation of chaos degree in movement formation and electrobiological muscular activity. The current work shows some typical examples of different physiological human states presented in a form of matrices of paired comparison.

Keywords:
homeostasis, quasiattractor, tremor, tapping
References

1. Cannon W.B. The wisdom of this body, New York, 1932.- p. 281.

2. Churchland M.M., Cunningham J.P., Kaufman M.T. and others. Neural population dynamics during reaching. Nature.- 2012.- V.487.- P. 51-56.

3. Eskov V.M. Models of hierarchical respiratory neuron networks. Neurocomput-ing.- 1996.- Vol. 11 (2-4). - P. 203-226.

4. Eskov V.M., Eskov V.V., Filato-va O.E. Characteristic features of measure-ments and modeling for biosystems in phase spaces of states. Measurement Techniques.- 2011.- V. 53(12). - P. 1404-1410.

5. Eskov V.M., Gavrilenko T.V., Koz-lova V.V., Filatov M.A. Measurement of the dynamic parameters of microchaos in the be-havior of living biosystems. Measurement Techniques.- 2012.- Vol. 55.- № 9.- P. 1096-1100.

6. Eskov V.M., Eskov V.V., Filatova O.E., Filatov M.A. Two types of systems and three types of paradigms in systems philosophy and system science. Journal of Biomedical Science and Engineering.- 2012.- Vol. 5.- № 10.- P. 602-607.

7. Eskov V.M., Eskov V.V., Ushakov V.F., Konrat O.N. Multidimensional phase space method in assessment of bronchial ob-struction prevention in patients with cold bronchial asthma and mixed pathology in the North. Complexity. Mind. Postnonclassic.- 2013.- № 3.- P. 21-29.

8. Eskov V.M., Khadartsev A.A., Eskov V.V., Filatov M.A. Cognitive and heu-ristic brain activity modeling by neural emula-tor. Complexity. Mind. Postnonclassic.- 2014.- № 1.- P. 69-76. (DOI 10.12737/ issn. 2306 - 174X).

9. Eskov V.M. Evolution of the emer-gent properties of three types of societies: The basic law of human development. Emergence: Complexity and Self-organization.- 2014.- Vol. 16.- №2.- P. 107-115.

10. Eskov V.M., Eskov V.V., Gavrilen-ko T.V., Zimin M.I. Uncertainty in quantum mechanics and biophisics of complex systems. Moskow University Physics Bulletin.- 2014.- № 5.- P. 41-46.

11. Haken H. Principles of brain func-tioning: a synergetic approach to brain activity, behavior and cognition (Springer series in synergetics). Springer, 1995.- 349 P.

12. Mayr E.W. What evolution is / Basic Books; New York, 2001.- 349 p.

13. Penrose R. Newton, quantum theory and reality. In: Hawking, S.W. Israel, W.: 300 Years of Gravity. Cambridge University Press: Cambridge. 1987.

14. Prigogine I. The philosophiy of in-stability. Futures, 1989.- P. 396-400.

15. Prigogine I. The Die Is Not Cast. Futures. Bulletin of the Word Futures Studies Federation.- 2000.- Vol. 25.- № 4.- P. 17-19.

16. Taleb N. The black swan: the impact of the highly improbable / Random House; New York, 2007.- 401 p.

17. Weaver W. Science and Complexity. Rokfeller Foundation, New York City. American Scientist. 1948.- p. 36.

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