JASMI  Vol.3 No.2 , June 2013
Quantitative Registration of the Degree of the Voluntariness and Involuntariness (of the Chaos) in Biomedical Systems
ABSTRACT

What does it mean: certainty and uncertainty, chaos and order? The understanding of such definition and real interpretation of chaotic behavior the third type of systems in nature was presented. The practical realization of different medical problems was presented too.


Cite this paper
V. Eskov, A. Khadartsev, V. Eskov and O. Filatova, "Quantitative Registration of the Degree of the Voluntariness and Involuntariness (of the Chaos) in Biomedical Systems," Journal of Analytical Sciences, Methods and Instrumentation, Vol. 3 No. 2, 2013, pp. 67-74. doi: 10.4236/jasmi.2013.32008.
References
[1]   V. M. Eskov, V. V. Eskov and O. E. Filatova, “Characteristic Features of Measurements and Modeling for Biosystems in Phase Spaces of States,” Measurement Techniques (Medical and Biological Measurements), Vol. 53, No. 12, 2011 pp. 1404-1410.

[2]   V. M. Eskov, V. V. Eskov, O. E. Filatova and M. A. Filatov, “Two Types of Systems and Three Types of Paradigms in Systems Philosophy and System Science,” Journal of Biomedical Science and Engineering, Vol. 5. N. 10. 2012. pp. 602-607. doi:10.4236/jbise.2012.510075

[3]   H. Haken, “Principles of Brain Functioning: A Synergetic Approach to Brain Activity, Behavior and Cognition (Springer Series in Synergetics),” Springer, Berlin, 1995.

[4]   M. M. Churchland, J. P. Cunningham, M. T. Kaufman, J. D. Foster, P. Nuyujukian, S. I. Ryu and K. V. Shenoy, “Neural Population Dynamics during Reaching,” Nature, Vol. 487, No. 7405, 2012, pp. 51-58.

[5]   V. M. Eskov and O. E. Filatova, “Respiratory Rhythm Generation in Rats: The Importance of Inhibition,” Neurophysiology, Vol. 25, No. 6, 1993, pp. 420-426.

[6]   V. M. Eskov, “Direct Control by Dissipation Factor in Respiratory Neuron Networks,” Neural Network World, Vol. 6, 1994, pp.663-670.

[7]   V. M. Eskov, “Models of Hierarchical Respiratory Neuron Networks,” Neurocomputing, Vol. 11. 1996, pp. 203-226. doi:10.1016/0925-2312(95)00048-8

[8]   V. M. Eskov and K S. V. ulaev, “Role of Connectedness Configuration at Neuron Network Behaviour. The Compartmental Approach,” Advances in Modeling. Automatic Control (Theory and Applications), Vol. 59. No. 1, 2004, pp. 9-24.

[9]   V. M. Eskov, “Hierarchical Respiratory Neuron Networks,” Modelling, Measurement & Control, Vol. 48, No. 2, 1995, pp. 47-63.

[10]   V. M. Eskov, “The Dependence of Activity of Cyclic Respiratory Neuron Network with Subcycles on Damping Coefficient,” Neural Network World, Vol. 1, 1996, pp. 57-67.

[11]   V. M. Eskov, “Third Paradigm. Samara. (Russia),” Ofort, Samara, 2011.

[12]   V. M. Eskov, “Indirect Control by Chemoreceptor Drive in Respiratory Neuron Networks,” Modelling, Measurement & Control, Vol. 48, No. 3, 1995, pp. 1-12.

[13]   M. A. Filatov, D. Y. Filatova, O. I. Himikova, J. V. Romanova, “Matrixes of Quasiattractor Distances at Identification of Human Psychophysiology Function,” Complexity Mind Postnonclassic, Vol. 1, 2012, pp. 19-24.

[14]   T. V. Gavrilenko, A. A. Baltikova, D. A. Degtyarev and A. S. Pashnin, “The Comparison of the Efficiency of Classic Stochastic Theory and Theory of Chaos-Selforganization (TCS),” Complexity Mind Postnonclassic, Vol. 1. 2012, pp. 81-91

[15]   W. Weaver, “Science and Complexity. Rockefeller Foundation,” American Scientist, New York, 1948.

[16]   I. Prigogine, “The Die Is Not Cast. Futures,” Bulletin of the Word Futures Studies Federation, Vol. 25. No. 4 2000, pp. 17-19.

[17]   A. V. Hill, “Why Biophysics?” Science, Vol. 124. No. 3234, 1956, pp. 1233-1237.

 
 
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