F.I. Mavrikidi, S.A. Khorkov

THE SYSTEM-CENOSIS APPROACH TO MATHEMATICAL MODELING TECHNOGENIC OBJECT

Annotation. The basis of the proposed work is the proximity of the concepts of system and cenosis, which define two ways to describe and manage man-made objects. Using the approach developed by the authors to modeling systems and cenoses, the paper presents a method of mathematical modeling based on the inclusion of p-adic numbers in the modeling apparatus. This step makes it possible to model specific system-technological properties of objects and their interaction with the external environment. The described approach is based on a number of well-known mathematical facts that are not included in the educational Arsenal of science, but represent a logically coherent sequence of results related to the practice and theory of fractals.
Keywords: system, cenosis, mathematical modeling, numerical asymmetry, fractal geometry, p-adic numbers,

For citation: Mavrikidi F.I., Khorkov S.A. [The system-cenosis approach to mathematical modeling technogenic object] Upravlenie tekhnosferoi, 2020, vol. 3, issue 3. (In Russ.) Available at: f-ing.udsu.ru/technosphere pp. 401 – 426. DOI 10.34828/UdSU.2020.66.20.002

REFERENCES

1. Mavrikidi F.I. Chislovaya asimmetriya v prikladnoi matematike: fraktaly, r-adicheskie chisla, aporii Zenona, slozhnye sistemy [Numerical asymmetry in applied mathematics: fractals, p-adic numbers, Zeno's aporia, complex systems]. Moscow, Delfis, 2015, 416 p. (In Russ.).
2. Khor'kov S.A. Problema rascheta elektropotrebleniya mnogonomenklaturnogo tsekha promyshlennogo predpriyatiya, modeli i metodiki dlya ee resheniya: monografiya [The Problem of calculating the power consumption of a multi-product shop of an industrial enterprise, models and methods for its solution: monograph]. Izhevsk: Publishing house of Izhevsk State Technical University named after M. T. Kalashnikov, 2019, 128 p. (In Russ.).
3. Kudrin B.I. Matematicheskii apparat obshchei i prikladnoi tsenologii i filosofskoe osmyslenie fundamental'nogo prirodnogo zakona giperbolichnosti vidovogo i rangovogo raspredelenii [Mathematical apparatus of General and applied cenology and philosophical understanding of the fundamental natural law of hyperbolicity of species and rank distributions] Ne novye novosti. Vyp. 55. «Tsenologicheskie issledovaniya». Moscow: Technetika, 2015, pp. 137 – 157. (In Russ.).
4. Blyumenfel'd L.A. Reshaemye i nereshaemye problemy biologicheskoi fiziki [Solvable and unsolvable problems of biological physics]. Moscow: Editorial URSS, 2014, 160 p. (In Russ.).
5. Kudrin B.I. Filosofiya tekhnetiki: osnovaniya postneklassicheskoi filosofii tekhniki [The Philosophy of technetics: the foundations of post-non-classical philosophy of technology] 6 «Tsenologicheskie issledovaniya», Moscow: Technetika, 2007, 196 p. (In Russ.).
6. Ulam S. Nereshennye matematicheskie zadachi [Unsolved mathematical problems]. Moscow: Nauka, 1964, 168 p. (In Russ.).
7. Sukhonos S.I. Masshtabnaya garmoniya Vselennoi [Scale harmony of the Universe], Moscow: New world, 2015, 215 p. (In Russ.).
8. Kovalenko V.V. Chastichno infinitnoe modelirovanie: osnovaniya, primery, paradoksy [Partially infinite modeling: foundations, examples, and paradoxes]. Saint Petersburg: Politechnika, 2005, 479 p. (In Russ.).
9. Panov E.N Znaki, simvoly, yazyki [Signs, symbols, languages] 2-oe izd., dop. Moscow: Znanie, 1983, 248 p. (In Russ.).
10. Robert A. A. Course in p-Adic Analysis. Springer, 2000, pp.17 – 19
11. Deza M.M, Deza E. Encyclopedia of Distances. Springer, 2009
12. Petrushenko L.A. Samodvizhenie materii v svete kibernetiki [Self-Movement of matter in the light of Cybernetics]. 1971, 290 p. (In Russ.).
13. Loifman I.Ya., Stadnik A.A. Edinstvo prirody i krugovorot materii [Unity of nature and circulation of matter]. Sverdlovsk, Ural University Publishing House, 1988, 204 p. (In Russ.).
14. Vernadskii V.I. Filosofskie mysli naturalista [Philosophical thoughts of a naturalist]. Moscow: Nauka, 1988, 520 p. (In Russ.).
15. Prigozhin I. Ot sushchestvuyushchego k voznikayushchemu: vremya i slozhnost' v fizicheskikh naukakh [From existing to emerging: time and complexity in the physical Sciences]. Per. s angl., Klimantovich Yu.L. (ed). Moscow: Nauka, 1985, 327 p. (In Russ.).
16. Macyntire A. Twenty Years of p-Adic Model Theory. Logic Colloqium’84. J.B. Paris, A.J. Wilkie, G.M. Wilmers (eds.), Elsevier, NH, 1986.
17. Izotov A.D., Mavrikidi F.I. Chislovoe predstavlenie fraktalov v fiziko-khimii materialovedeniya [Numerical representation of fractals in physical chemistry of materials science]. 2019, vol. 11, no. 3, pp. 313 – 328 (In Russ.).
18. Postovalova V.I Yazyk i miroponimanie. Opyt lingvofilosofskoi interpretatsii. [The Language and understanding of the world. Experience of linguophilosophical interpretation]. Moscow: Lenand, 2017, 312 p. (In Russ.).
19. Ponomarev L.I. Pod znakom kvanta [Under the sign of quantum]. Moscow: Fizmatlit, 2005, 416 p. (In Russ.).
20. Popkov V.V. Dvoistvennost': kontseptsiya i metody poznavatel'noi modeli. V kn. Sistemnyi pokhod v sovremennoi nauke [Duality: the concept and methods of the cognitive model. In the book. System approach in modern science]. Moscow: Progress-Tradition, 2004, pp. 235 – 253 (In Russ.).
21. Popkov V.V. Ekonomicheskii konstruktivizm. Uskol'zayushchaya real'nost': chto kroetsya za ob"ektivnost'yu ekonomicheskoi nauki [Economic constructivism. Elusive reality: what lies behind the objectivity of economic science]. Moscow: URSS, 2014, 200 p. (In Russ.).
22. Izotov A.D., Mavrikidi F.I. Chislovaya asimmetriya vnutrennego prostranstva nekristallicheskikh materialov [Numerical asymmetry of the internal space of non-crystalline materials]. Izvestiya Samarskogo nauchnogo tsentra RAN, [Proceedings of the Samara scientific center of RAS], 2017, no.1, pp. 3 – 24. (In Russ.).
23. Izotov, A.D., Mavrikidi F.I. Chislovoe predstavlenie fraktalov v fiziko-khimii materialovedeniya [Numerical representation of fractals in physics and chemistry materials science] RANSIT, 2019, no. 4, pp. 317 – 328 (In Russ.).
24. Izotov A.D. Mavrikidi F.I., Khor'kov S.A. Matematicheskii bazis innovatsionnykh tekhnologii neftegazovoi promyshlennosti [Mathematical basis of innovative technologies in the oil and gas industry]. Upravlenie tekhnosferoi: elektron. Zhurnal [Managment of the technosphere: the electron. journal]. 2019, vol. 2, issue 4. Available at: f-ing.udsu.ru/technosphere (accessed: 14.05.2020). (In Russ.).

About the Author

Mavrikidi Fyodor Ivanovich

 Candidate of Technical Sciences, senior researcher, Institute of oil and gas problems of the Russian Academy of Sciences, Russia, Tel +7(916)7966320.

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 Khor'kov Sergei Alekseevich

 Associate Professor, Department of Heat Power Engineering, Oil and Gas Institute named of M.S. Gutseriev, Federal State Budgetary Educational Institution of Higher Education "Udmurt state University", 426034, Russia, Izhevsk, Str. University, 1/7, Russia, Tel +7(912)7671690

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THE SYSTEM-CENOSIS APPROACH TO MATHEMATICAL MODELING TECHNOGENIC OBJECT pdf(777 kb)