Game Models for the Control of the Main Body Functional Systems and their Analysis. II

Cybernetics - 2014
N. I. Galchyna1, Iu. N. Onopchuk1, V. I. Portnichenko2, T. A. Siemchyk1
1V. M. Glushkov Institute of Cybernetics, National Academy of Sciences of Ukraine, Kyiv, Ukraine
2International Center for Astronomical, Medical, and Ecological Research, National Academy of Sciences of Ukraine, Kyiv, Ukraine

Tóm tắt

The authors propose and validate the mathematical models for the human body adaptation mechanisms to oxygen lack in highland and strenuous physical activity. The computer analysis of joint operation of the respiratory, circulatory, and heat exchange functional systems and immune response to viral infection is carried out to reveal the nature of intersystem mechanisms of the interaction of functional systems of the body under extreme environmental conditions.

Từ khóa


Tài liệu tham khảo

N. I. Galchyna, Iu. N. Onopchuk, V. I. Portnichenko, and T. A. Semchyk, “Game model for the control of the main body functional systems and their analysis. I,” Cybern. Syst. Analysis, 50, No. 1, 68–80 (2014).

F. S. Grodins, Control Theory and Biological Systems, Columbia Univ. Press, New York (1963).

A. Guyton, Cardiac Output and its Regulation (Circulation Physiology), Saunders (1973).

N. M. Amosov, Control of Vital Functions and Cybernetics [in Russian], Naukova Dumka, Kyiv (1964).

V. N. Novosel’tsev, Control Theory and Biosystems [in Russian], Nauka, Moscow (1978).

I. I. Ermakova, Mathematical Modeling of Human Thermoregulation Processes [in Russian], VINITI, Moscow (1987).

G. I. Marchuk, Mathematical Models in Immunology. Computing Methods and Experiments [in Russian], Nauka, Moscow (1991).

A. L. Asachenkov, “Elementary model of the influence of temperature responses on the dynamics of immune response,” in: Matem. Modelir. Immunol. Medits., Nauka, Novosibirsk (1982), pp. 40–43.

I. B. Pogozhev, Analysis of Motions of Interacting Particles in Fluid Media of the Organism. Mathematical Modeling in Immunology and Medicine [in Russian], VINITI, Moscow (1986), pp. 35–58.

N. I. Grabova, Iu. N. Onopchuk, and V. I. Portnichenko, “Mathematical models of hypometabolism as a mechanism of stabilization of the human functional state,” Komp. Matem., No. 1, 120–129 (2007).

Iu. N. Onopchuk and A. G. Misyura, “Methods of the mathematical modeling and control in theoretical studies and solution of applied problems of medicine and physiology,” Sport. Meditsyna, No. 1, 181–188 (2008).

A. A. Aralova, N. I. Aralova, P. V. Beloshitskii, and Iu. N. Onopchuk, “Automated information system of the functional diagnostics of mountain climbers,” Sport. Meditsyna, No. 1, 163–169 (2008).

Iu. N. Onopchuk and N. I. Grabova, “Mathematical modeling of anaemic hypoxia,” Komp. Matem., No. 1, 113–119 (2007).

F. G. Garashchenko, N. I. Grabova, and I. I. Lanovenko, “A mechanism of the autoregulation of the respiratory process in an organism and its mathematical model,” Teor. Optim. Reshenii, No. 7, 139–145 (2008).

Thông tin
Thông tin xuất bản

Cybernetics

Thông tin tác giả