Geodesic
Construction of a method for managing the functioning of an enterprise
News of the Kabardin-Balkar scientific center of RAS, no. 6 (2022), pp. 99-105.

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The paper considers an approach to building an enterprise management model. To solve this problem, it is proposed to consider an enterprise management system based on feedback. The challenge is to get the right solutions for the required output at each stage of production. As the control elements of the system, it is proposed to consider the proportional management of the enterprise to eliminate the error that may occur during the operation of the enterprise. Proportional-differential management of an enterprise, when it is necessary to be able to respond not only to a management error, but also to the rate of its change. Integral control must eliminate the static error of the enterprise. Methods for selecting the coefficients of the control model are considered. The conclusion is made about the prospects of the combined approach.
Keywords: mathematical model of enterprise control, feedback system, proportional control of an enterprise, proportional-differential control of an enterprise, integral control, intelligent methods for setting coefficients. 
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D. A. Kanametova. Construction of a method for managing the functioning of an enterprise. News of the Kabardin-Balkar scientific center of RAS, no. 6 (2022), pp. 99-105. http://geodesic.mathdoc.fr/item/IZKAB_2022_6_a8/

[1] Yu. Balashova, Effective production management systems (In Russian) http://www.cfin.ru/itm/kis/choose/Manufacturing.shtml

[2] V. B. Trofimov, Intelligent automated control systems for technological objects, Infra-Inzheneriya, Moscow, 2016, 232 pp. (In Russian)

[3] A. P. Plotnikov, “Development of methodology for managing innovation activities based on the feedback principle”, Bulletin of Saratov state technical university, 1:1 (34) (2008), 198-207 (In Russian) | MR

[4] V. N. Burkov, I. V. Burkova, “Digital Economy and Smart Management Mechanisms”, Project and Program Management, 2018, no. 2 (54), 118-124 (In Russian)

[5] O. I. Lavrushin, Management Theory, textbook for High Schools, Nauka, Moscow, 2008, 590 pp. (In Russian)

[6] E. V. Glushchenko, E. V. Zakharova, Yu. V. Tikhonravov, Management Theory, textbook, Vestnik, Moscow, 2007, 642 pp. (In Russian)

[7] A. A. Erofeev, Theory of automatic control, textbook for universities, Politekhnika, St.Petersburg, 2018, 302 pp. (In Russian)

[8] V. I. Voropaev, Ya. D. Gelrud, “Generalized stochastic network models for managing complex projects”, Project and Program Management, 2008, no. 1, 18-27 (In Russian)

[9] Ya. D. Gelrud, “Generalized stochastic network models for managing complex projects”, Vestnik NGU. Series: mathematics, mechanics, computer science, 2010, no. 4, 36-51 (In Russian)

[10] Ya. D. Gelrud, Project management: methods, models, systems, monograph, Izdatel'skiy tsentr YUUrGU, Chelyabinsk, 2015, 331 pp. (In Russian)

[11] D. I. Golenko-Ginzburg, Stochastic network models of development planning and management, Nauchnaya kniga, Voronezh, 2010, 410 pp. (In Russian)

[12] S. A. Zukhovitsky, I. A. Radchik, Mathematical methods of network planning, Nauka, Moscow, 1965, 296 pp. (In Russian)

[13] V. M. Kaziev, Introduction to the analysis, synthesis and modeling of systems, textbook, Binom, Moscow, 2014, 244 pp. (In Russian)

[14] N. Sh. Kremer, B. A. Putko, I. M. Trishin, M. N. Fridman, Operational research in economics: a textbook for universities, UNITI, Moscow, 2005, 407 pp. (In Russian)