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Development of a Design Algorithm for the Logistics System of Product Distribution of the Mechanical Engineering Enterprise

Авторы: Omelchenko I.N., Lyakhovich D.G., Aleksandrov A.A., Vodchits A.S., Kunkov N.V. Опубликовано: 06.06.2020
Опубликовано в выпуске: #3(132)/2020  

DOI: 10.18698/0236-3941-2020-3-62-69

 
Раздел: Машиностроение и машиноведение | Рубрика: Организация производства  
Ключевые слова: logistics system, distribution, design, algorithm, mechanical engineering, enterprise, product

The purpose of this research is to represent the results of the development of the design algorithm for the logistics system for the distribution of products of a mechanical engineering enterprise, which would determine the characteristics of the production distribution channel, the optimal arrangement of the elements of the logistics system of product distribution in the environment, and also to optimize the resources flow with regard to the limitations. The main content of this research is the analysis of publications of Russian and foreign scientists and specialists in the field of production management, modeling and optimization of organizational structures and production processes, design of logistics systems. The practical significance of the research is the possibility of the appliance of the presented algorithm by the management team of a mechanical engineering enterprise in a market environment. It would permit to improve the efficiency of using the existing resources of the enterprise. This article is addressed to specialists in the field of theory and practice of production organization

Литература

[1] Stepanov A.E., ed. Metodologiya i metody sovershenstvovaniya upravleniya promyshlennymi predpriyatiyami [Methodology and methods for improving the management of industrial enterprises]. Yaroslavl, Kantsler Publ., 2018.

[2] Skowronek C., Sarjusz-Wolski Z. Logistyka w przedsiebiorstwie. Warszawa, PWE, 2016.

[3] Zybina Yu.V., Gilts N.E. Factors affecting the formation of the product distribution strategy. Reshetnevskiye chteniya [Reshetnev Readings], 2016, vol. 2, no. 20, pp. 416--418 (in Russ.).

[4] Mirotin L.B., Omelchenko I.N., eds. Inzhenernaya logistika: logisticheski-oriyentirovannoye upravleniye zhiznennym tsiklom produktsii [Engineering logistics: logistic-oriented product life cycle management]. Moscow, Goryachaya liniya--Telekom Publ., 2015.

[5] Kozlov V.K., Rudkovskiy I.F. Proyektirovaniye logisticheskikh sistem [Logistic systems design]. St. Petersburg, UNECON Publ., 2016.

[6] Mirkina O.N. Algorithmization of forming the system of industrial products distribution. Nauchnoye obozreniye [Science Review], 2015, no. 11, pp. 375--378 (in Russ.).

[7] Denyak O.A., Asharafulin R.F. Algoritm proyektirovaniya logisticheskoy raspredelitelnoy sistemy novogo proizvodstva [Algorithm for designing a logistics distribution system of a new production]. Sb. nauch. tr. professorsko-prepodavatelskogo sostava Admiral Makarov SUMIS [Proc. of the faculty Admiral Makarov SUMIS]. St. Petersburg, Admiral Makarov SUMIS Publ., 2017, pp. 124--131 (in Russ.).

[8] Kozlov V.K., Rudkovskiy I.F. Process of designing industrial logistic systems: organization and structure. Vestnik fakulteta upravleniya UNECON, 2018, iss. 3, pp. 313--317 (in Russ.).

[9] Kortus-Schultes D., Ferfer U. Logistik und Marketing in der Supply Chain: Wert-steigerung durch virtuelle Geschaftsmodelle. Wiesbaden, Gabler, 2005. DOI: https://doi.org/10.1007/978-3-322-82301-4

[10] Ross D.F. Distribution Planning and Control: Managing in the Era of Supply Chain Management. New York, Springer, 2018. DOI: https://doi.org/10.1007/978-1-4899-7578-2

[11] Kravtsova I.S., Tekucheva S.N. System of multichannel distribution of the production enterprise: building algorithm and evaluation criterion. IJPS, 2018, no. 3, pp. 25--34 (in Russ.).

[12] Nikolayeva Yu.A., Omelchenko I.N. [Management decision-making system to support the logistics processes of the enterprise]. Sb. dokl. XI Vseros. konf. molod. uchen. i spets. "Budushchee mashinostroeniya Rossii" [Proc. XI Russ. conf. of young scientists and specialists "Future of machine building in Russia"]. Moscow, Bauman MSTU Publ., 2018, pp. 802−804 (in Russ.).

[13] Bliesener M.-M. Logistik-Controlling: Von der Produktivitat zum Prozess. Munchen, Vahlen, 2002.

[14] Krinitsin R.V. General design algorithm for logistics distribution systems. Bulletin of ENGECON. Ser. Economy, 2008, iss. 1, pp. 297--300 (in Russ.).

[15] Pyankov A.А. Method of multicriteria optimization in the design of logistics systems. BIS [Birzha Intellektualnoy Sobstvennosti], 2018, vol. XVII, no. 3, pp. 11--16 (in Russ.).

[16] Kunkov N.V., Lyakhovich D.G., Omelchenko I.N. [Development of a design algorithm for the logistic system of product distribution of the mechanical engineering enterprise]. Mater. II Vseros. nauch.-prakt. konf. "Prioritetnyye i perspektivnyye napravleniya nauchno-tekhnicheskogo razvitiya Rossiyskoy Federatsii" [Proc. II Russ. scientific and practical conf. "Priority and perspective directions of scientific and technical development of the Russian Federation"]. Moscow, SUM Publ., 2019, pp. 169--170 (in Russ.).

[17] Kunkov N.V. [Logistic distribution system for industrial products: organization and design algorithm]. Sb. tez. dokl. Vseros. studen. konf. "Studencheskaya nauchnaya vesna" [Abstracts Russ. student conf. "Student scientific spring"]. Moscow, Nauchnaya biblioteka Publ., 2019, p. 8 (in Russ.).

[18] Kunkov N.V., Vodchits A.S., Lyakhovich D.G., et al. [Logistic distribution system for industrial products: organization and design algorithm]. Sb. dokl. XII Vseros. konf. molod. uchen. i spets. "Budushchee mashinostroeniya Rossii" [Proc. XII Russ. conf. of young scientists and specialists "Future of machine building in Russia"]. Moscow, Bauman MSTU Publ., 2019, pp. 983−985 (in Russ.).