Email this article THE CONCEPT OF UNIFORMITY OF A GROUP IN HUMAN ECOLOGY
- Authors: Filatova O.E.1, Gudkov A.B.2, Eskov V.V.1, Chempalova L.S.3
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Affiliations:
- Design office "Automated Systems and Systems Analysis"
- Northern State Medical University
- Samara State Industrial University
- Issue: Vol 27, No 2 (2020)
- Pages: 40-44
- Section: Articles
- URL: https://journal-vniispk.ru/1728-0869/article/view/35072
- DOI: https://doi.org/10.33396/1728-0869-2020-2-40-44
- ID: 35072
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Abstract
Over the past 100-150 years, the selection of homogeneous groups in ecology as a whole has been carried out as part of the calculation of the coefficient of variation V = о / or by the ABC method. However, the Eskov - Zinchenko effect imposes serious restrictions on all statistical methods. The aim of the study was to verify the statistical homogeneity of three groups of Khanty women of different ages. Methods: The technique of repeating measurements of the same parameters of the Khanty women's cardiovascular system (three different ages) was used, for which matrices of all (105) different pairwise comparisons of samples for each such group were constructed (these measurements were repeated). Results. It was established that the same age, gender and living conditions (ethnicity) do not guarantee the selection of physiologically (statistically) homogeneous groups of subjects. The study proves the lack of statistical homogeneity of the three age-tested groups of Khanty women. The proportion of statistical similarity is less than 20 % of all 105 comparison pairs in all three age comparison groups. It is shown that repeated measurement of the same group gives a different picture of the distribution of pairs that can be attributed to one (common) general population. Each new dimension will give other pairs of k coincidences and it will never (from the standpoint of stochastics) be able to select a homogeneous group statistically coincident in the xi samples of the homeostasis parameter. In fact, the Eskov - Zinchenko effect spreads from one subject (in the mode of n iterations of experiments) to a group of different subjects (which cannot be homogeneous). Conclusions. From the standpoint of chaos theory - self-organization, other criteria of group homogeneity are required, in which the parameters of quasi attractors and the ratio of objects of these quasi attractors are already calculated.
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##article.viewOnOriginalSite##About the authors
O. E. Filatova
Design office "Automated Systems and Systems Analysis"
A. B. Gudkov
Northern State Medical University
V. V. Eskov
Design office "Automated Systems and Systems Analysis"
L. S. Chempalova
Samara State Industrial University
References
- Григоренко В. В., Еськов В. М., Лысенкова С. А., Микшина В. С. Алгоритм автоматизированной диагностики динамики возрастных изменений параметров сердечно-сосудистой системы при нормальном старении в оценке биологического возраста // Системный анализ и управление в биомедицинских системах. 2017. Т. 16, № 2. С. 357-362.
- Гудков А. Б., Теддер Ю. Р., Дёгтева Г. Н. Некоторые особенности физиологических реакций организма рабочих при экспедиционно-вахтовом методе организации труда в Заполярье // Физиология человека. 1996. Т. 22, № 4. С. 137-142.
- Дерягина Л. Е., Цыганок Т. В., Рувинова Л. Г., Гудков А. Б. Психофизиологические свойства личности и особенности регуляции сердечного ритма под влиянием трудовой деятельности // Медицинская техника. 2001. № 3. С. 40-44.
- Филатова О. Е., Майстренко Е. В., Болтаев А. В., Газя Г. В. Влияние промышленных электромагнитных полей на динамику сердечно-сосудистых систем работниц нефтегазового комплекса // Экология и промышленность России. 2017. Т. 21, № 7. С. 46-51.
- Betelin V. B., Eskov V. M., Galkin V. A. and Gavrilenko T. V. Stochastic Volatility in the Dynamics of Complex Homeostatic Systems // Doklady Mathematics. 2017. Vol. 95, N 1. P. 92-94.
- Eskov V. V., Filatova O. E., Gavrilenko T. V., Gorbunov D. V. Chaotic Dynamics of Neuromuscular System Parameters and the Problems of the Evolution of Complexity // Biophysics. 2017. Vol. 62 (6). P. 961-966.
- Eskov V. V., Gavrilenko T. V., Eskov V. M., Vochmina Yu. V. Static Instability Phenomenon in Type-Three Secretion Systems: Complexity // Technical Physics. 2017. Vol. 62 (11). P. 1611-1616.
- Eskov V. M., Filatova O. E., Eskov V. V. and Gavrilenko T. V. The Evolution of the Idea of Homeostasis: Determinism, Stochastics and Chaos-Self-Organization // Biophysics. 2017. Vol. 62 (5). P. 809-820.
- Eskov V. M., Bazhenova A. E., Vochmina U. V., Filatov M. A., Ilyashenko L. K. N. A. Bernstein hypothesis in the Description of chaotic dynamics of involuntary movements of person // Russian Journal of Biomechanics. 2017. Vol. 21 (1). P. 14-23.
- Filatova O. E., Eskov V. V., Filatov M. A., Ilyashenko L. K. Statistical instability phenomenon and evaluation of voluntary and involuntary movements // Russian Journal of Biomechanics. 2017. Vol. 21 (3). P. 224-232.
- Filatova O. E., Bazhenova A. E., Ilyashenko L. K., Grigorieva S. V. Estimation of the Parameters for Tremograms According to the Eskov - Zinchenko Effect Biophysics // Biophysics. 2018. Vol. 63 (2). P. 125-130.
- Ilyashenko L. K., Bazhenova A. E., Berestin D. K., Grigorieva S. V. Chaotic dynamics parameters of the tremorgrams at the stress exposure // Russian Journal of Biomechanics. 2018. Vol. 22 (1). P. 62-71.
- Khadartsev A. A., Nesmeyanov A. A., Eskov V. M., Filatov M. A., Pab W. Foundamentals of chaos and selforganization theory in sports // Integrative medicine international. 2017. Vol. 4. P. 57-65.
- Zilov V. G., Khadartsev A. A., Eskov V. V. and Eskov V. M. Experimental Study of Statistical Stability of Cardiointerval Samples // Bulletin of experimental biology and medicine. 2017. Vol. 164 (2). P. 115-117.
- Zilov V. G., Khadartsev A. A., Ilyashenko L. K., Eskov V. V., Minenko I. A. Experimental analysis of the chaotic dynamics of muscle biopotentials under various static loads // Bulletin of experimental biology and medicine. 2018. Vol. 165 (4). P. 415-418.
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