DOI: https://doi.org/10.30838/J.BPSACEA.2312.231018.10.305

Scope of anthropomorphic system functioning

Yu. I. Dubrov, V. N. Volchuk, V. I. Bol’shakov

Abstract


. Introduction. The anthropomorphic principle, as a rule, is a big part of systems created by us approximately reproducing certain functions of the human body. Functions carry out goal-setting, resource planning, building a strategy for achieving goals, etc. Since these principles reproduce the functions of the human body, survival is the defining parameter of anthropomorphic systems. Main part. The intellectual component of the anthropomorphic system, mainly manifests in its multi-criteria, which initiates the selection, at each stage of operation, of the main criterion, from a variety of alternative ones that are within the limits of the restrictions. The choice of the main criterion, as a rule, consists in the research of models in which survival is a decisive parameter contributing to the determination of erroneous choices. An example of a specific application of an anthropomorphic system is given, in which the choice of the main criterion becomes more accurate with its modification through the application of fractal formalism. Conclusions. The choice of the scope of anthropomorphic system functioning is shown using the fractal approach, which contributes to its identification.


Keywords


an anthropomorphic system;complex system; the survival function; a compromise area; the heterogeneous criteria

References


Khaken G. Sinergetika. Ierarkhiya neustojchivostej v samoorganizuyushchikhsya sistemakh i ustrojstvakh [Synergetics. The hierarchy of instabilities in self-organizing systems and devices]. Moscow: Mir, 1985, 424 р.

Germejer Yu.B. Vvedenie v teoriyu issledovaniya operatsij [Introduction to the theory of operations’ research]. Moscow: Nauka, 1971, 383 p.

Dubrov Yu.I, Frolov V.V. and Vakhnin A.N. Uchet vliyaniya neupravlyayemykh faktorov pri analize i sinteze kriteriya funktsionirovaniya slozhnykh sistem [Consideration of the influence of uncontrollable factors in the analysis and synthesis of the criterion for the functioning of complex systems]. Ekonomika i matematicheskie metody [Economics and mathematical methods]. Moscow: Akad. Nauk USSR, 1986, vol. 22, no. 1, pp 165-170. (in Russian).

Dubrov Yu.I. Informatsionnaya “bednost'” zadach ekologicheskogo prognozirovaniya i nekotorye puti yeye razresheniya [Informational "poverty" of environmental forecasting tasks and some ways of its resolution]. Dopovidi Natsionalnoi akademii nauk Ukrainy [Reports of the National Academy of Sciences of Ukraine]. Kyiv, 2000, no. 1, pp. 191-197. (in Russian).

Bol’shakov V.I., Dubrov Yu.I. «Samoorganizatsiya materiala» kak protsess determinirovannoj adaptatsii [“Material self-organization” as a process of deterministic adaptation]. Dopovіdі Natsіonalnoi akademіi nauk Ukrainy. Matematyka.Pryrodoznavstvo. Tekhnichni nauky [Reports of the National Academy of Sciences of Ukraine. Mathematics. Natural science. Technical sciences]. Kyiv, 2004, no. 5, pp. 97-104. (in Russian).

Smirnov N.N. Ekologiya biosfernoy katastrofy [Ecology of the biosphere disaster]. Moscow: Znanie, 1988, 64 р.

Bolshakov V.I., Volchuk V.M. and Dubrov Yu.I. Sposob opredeleniya oblasti kompromissa kriteriev kachestva mnogokriterial’nykh tekhnologiy [The way to determine the area of compromise quality criteria of multi-criteria technologies]. Svidotstvo pro reiestratsiiu avtorskogo prava na tvir [The certificate of registration of copyright for a work]. No. 53769. Available at: http://www.me.gov.ua/Documents/Detail?lang=uk-UA&id=11c1271e-eb9e-470a-ba8e-43b4e5301bee&title=OfitsiiniiBiuletenavtorskePravoISumizhniPrava [Accessed 8 February 2019]. (in Russian).

Volchuk V.N. K opredeleniyu oblasti kompromissa kharakteristik kachestva materialov [By identifying areas compromise performance materials quality]. Metaloznavstvo ta termіchna obrobka metalіv [Metallurgy and heat treatment of metals], 2015, no. 3, pp. 5−11. Available at: http://mtom.pgasa.dp.ua/article/view/23-30/54119. [Accessed 7 February 2019]. (in Russian).

Bolshakov V.I., Volchuk V.M., Dubrov Yu.I. Etapy identyfikatsii bahatoparametrychnykh tekhnolohii ta shliakhy yikh realizatsii [Stages multiparameter identification technologies and ways of their implementation]. Visnyk Natsionalnoi akademii nauk Ukrainy [Bulletin of the National Academy of Sciences of Ukraine]. Kyiv, 2013, no. 8, pp. 66–72. Available at: http://dspace.nbuv.gov.ua/handle/123456789/67873 [Accessed 6 February 2019]. (in Ukrainian).

Dubrov Yu., Bol’shakov V. and Volchuk V. Puti identifikatsii periodicheskikh mnogokriterial'nykh tekhnologij na primere tekhnologii proizvodstva prokatnykh valkov [The ways of identification of periodic multi-criteria technologies on the example of the production technology of mill rolls]. Saarbrücken: Palmarium Academic Publishing, 2015, 244 p. Available at: https://www.palmarium-publishing.ru/# [Accessed 7 February 2019]. (in Russian).

Volchuk V., Klymenko I., Kroviakov S. and Orešković M. Method of material quality estimation with usage of multifractal formalism. Tehnički glasnik. Technical Journal. 2018, vol. 12, no. 2, рр. 93–97. Available at: https://hrcak.srce.hr/202359 [Accessed 8 February 2019].

Bol’shakov V.I., Volchuk V.N. and Dubrov Yu.I. Osnovy organizatsii fraktal'nogo modelirovaniya [Fundamentals of fractal modeling]. Kiev: Akademperiodika, 2017, 170 p. (in Russian).

Bol’shakov V., Volchuk V. and Dubrov Yu. Puti primeneniya teorii fraktalov [Ways of applying the theory of fractals]. Saarbrucken: Palmarium Academic Publishing, 2016, 156 p. Available at: https://www.morebooks.de/store/gb/book/%D0%9F%D1%83%D1%82%D0%B8-%D0%BF%D1%80%D0%B8%D0%BC%D0%B5%D0%BD%D0%B5%D0%BD%D0%B8%D1%8F-%D1%82%D0%B5%D0%BE%D1%80%D0%B8%D0%B8-%D1%84%D1%80%D0%B0%D0%BA%D1%82%D0%B0%D0%BB%D0%BE%D0%B2/isbn/978-3-659-72264-6 [Accessed 7 February 2019]. (in Russian).

Bolshakov V., Volchuk V. and Dubrov Yu. Fractals and properties of materials. Saarbrucken: Lambert Academic Publishing, 2016, 140 p. Available at: https://www.lap-publishing.com/catalog/details/store/tr/book/978-3-330-01812-9/fractals-and-properties-of-materials?search=Fractals [Accessed 7 February 2019].

Bol’shakov V.I., Volchuk V.N. and Dubrov Yu.I. Fraktal'nyj podkhod pri identifikatsii slozhnykh sistem [Fractal approach to the identification of complex systems]. Dopovidi Natsionalnoi akademii nauk Ukrainy. Materialoznavstvo [Reports of the National Academy of Sciences of Ukraine. Materials science]. Kyiv, 2017, no. 6, pp. 46–50. Available at: https://doi.org/10.15407/dopovidi2017.06.046 [Accessed 7 February 2019]. (in Russian).


GOST Style Citations


1. Khaken G. Sinergetika. Ierarkhiya neustojchivostej v samoorganizuyushchikhsya sistemakh i ustrojstvakh [Synergetics. The hierarchy of instabilities in self-organizing systems and devices]. Moscow: Mir, 1985, 424 р.

2. Germejer Yu.B. Vvedenie v teoriyu issledovaniya operatsij [Introduction to the theory of operations’ research]. Moscow: Nauka, 1971, 383 p.

3. Dubrov Yu.I, Frolov V.V. and Vakhnin A.N. Uchet vliyaniya neupravlyayemykh faktorov pri analize i sinteze kriteriya funktsionirovaniya slozhnykh sistem [Consideration of the influence of uncontrollable factors in the analysis and synthesis of the criterion for the functioning of complex systems]. Ekonomika i matematicheskie metody [Economics and mathematical methods]. Moscow: Akad. Nauk USSR, 1986, vol. 22, no. 1, pp 165-170. (in Russian).

4. Dubrov Yu.I. Informatsionnaya “bednost'” zadach ekologicheskogo prognozirovaniya i nekotorye puti yeye razresheniya [Informational "poverty" of environmental forecasting tasks and some ways of its resolution]. Dopovidi Natsionalnoi akademii nauk Ukrainy [Reports of the National Academy of Sciences of Ukraine]. Kyiv, 2000, no. 1, pp. 191-197. (in Russian).

5. Bol’shakov V.I., Dubrov Yu.I. «Samoorganizatsiya materiala» kak protsess determinirovannoj adaptatsii [“Material self-organization” as a process of deterministic adaptation]. Dopovіdі Natsіonalnoi akademіi nauk Ukrainy. Matematyka.Pryrodoznavstvo. Tekhnichni nauky [Reports of the National Academy of Sciences of Ukraine. Mathematics. Natural science. Technical sciences]. Kyiv, 2004, no. 5, pp. 97-104. (in Russian).

6. Smirnov N.N. Ekologiya biosfernoy katastrofy [Ecology of the biosphere disaster]. Moscow: Znanie, 1988, 64 р.

7. Bolshakov V.I., Volchuk V.M. and Dubrov Yu.I. Sposob opredeleniya oblasti kompromissa kriteriev kachestva mnogokriterial’nykh tekhnologiy [The way to determine the area of compromise quality criteria of multi-criteria technologies]. Svidotstvo pro reiestratsiiu avtorskogo prava na tvir [The certificate of registration of copyright for a work]. No. 53769. Available at: http://www.me.gov.ua/Documents/Detail?lang=uk-UA&id=11c1271e-eb9e-470a-ba8e-43b4e5301bee&title=OfitsiiniiBiuletenavtorskePravoISumizhniPrava. [Accessed 8 February 2019]. (in Russian).

8. Volchuk V.N. K opredeleniyu oblasti kompromissa kharakteristik kachestva materialov [By identifying areas compromise performance materials quality]. Metaloznavstvo ta termіchna obrobka metalіv [Metallurgy and heat treatment of metals], 2015, no. 3, pp. 5−11. Available at: http://mtom.pgasa.dp.ua/article/view/23-30/54119. [Accessed 7 February 2019]. (in Russian).

9. Bolshakov V.I., Volchuk V.M., Dubrov Yu.I. Etapy identyfikatsii bahatoparametrychnykh tekhnolohii ta shliakhy yikh realizatsii [Stages multiparameter identification technologies and ways of their implementation]. Visnyk Natsionalnoi akademii nauk Ukrainy [Bulletin of the National Academy of Sciences of Ukraine]. Kyiv, 2013, no. 8, pp. 66–72. Available at: http://dspace.nbuv.gov.ua/handle/123456789/67873. [Accessed 6 February 2019]. (in Ukrainian).

10. Dubrov Yu., Bol’shakov V. and Volchuk V. Puti identifikatsii periodicheskikh mnogokriterial'nykh tekhnologij na primere tekhnologii proizvodstva prokatnykh valkov [The ways of identification of periodic multi-criteria technologies on the example of the production technology of mill rolls]. Saarbrücken: Palmarium Academic Publishing, 2015, 244 p. Available at: https://www.palmarium-publishing.ru/#. [Accessed 7 February 2019]. (in Russian).

11. Volchuk V., Klymenko I., Kroviakov S. and Orešković M. Method of material quality estimation with usage of multifractal formalism. Tehnički glasnik. Technical Journal. 2018, vol. 12, no. 2, рр. 93–97. Available at: https://hrcak.srce.hr/202359. [Accessed 8 February 2019].

12. Bol’shakov V.I., Volchuk V.N. and Dubrov Yu.I. Osnovy organizatsii fraktal'nogo modelirovaniya [Fundamentals of fractal modeling]. Kiev: Akademperiodika, 2017, 170 p. (in Russian).

13. Bol’shakov V., Volchuk V. and Dubrov Yu. Puti primeneniya teorii fraktalov [Ways of applying the theory of fractals]. Saarbrucken: Palmarium Academic Publishing, 2016, 156 p. Available at: https://www.morebooks.de/store/gb/book/%D0%9F%D1%83%D1%82%D0%B8-%D0%BF%D1%80%D0%B8%D0%BC%D0%B5%D0%BD%D0%B5%D0%BD%D0%B8%D1%8F-%D1%82%D0%B5%D0%BE%D1%80%D0%B8%D0%B8-%D1%84%D1%80%D0%B0%D0%BA%D1%82%D0%B0%D0%BB%D0%BE%D0%B2/isbn/978-3-659-72264-6. [Accessed 7 February 2019]. (in Russian).

14. Bolshakov V., Volchuk V. and Dubrov Yu. Fractals and properties of materials. Saarbrucken: Lambert Academic Publishing, 2016, 140 p. Available at: https://www.lap-publishing.com/catalog/details/store/tr/book/978-3-330-01812-9/fractals-and-properties-of-materials?search=Fractals. [Accessed 7 February 2019].

15. Bol’shakov V.I., Volchuk V.N. and Dubrov Yu.I. Fraktal'nyj  podkhod pri identifikatsii slozhnykh sistem [Fractal approach to the identification of complex systems]. Dopovidi Natsionalnoi akademii nauk Ukrainy. Materialoznavstvo [Reports of the National Academy of Sciences of Ukraine. Materials science]. Kyiv, 2017, no. 6, pp. 46–50. Available at: https://doi.org/10.15407/dopovidi2017.06.046. [Accessed 7 February 2019]. (in Russian).