Mathematical model of fixed assets’ joint use by the machine-building enterprises

High competition in the markets of goods and services makes it urgent to improve the efficiencyof the use of production assets by the enterprises. One of the possible ways to solve the problem is joint use of the assets by different subjects. The use of this mechanism in the various branches grows rapidly in the last decade due to the opportunities for aggregation of supply and demand and automated contracting provided by the modern digital technologies. The basis for production asset management systems based on sharing is a mathematical model that allows determining the optimal modes of asset use in terms of their utilization, reducing the total cost of ownership and obtaining additional operating profit. This article considers a mathematical model of a multi-product spatially distributed production system that reflects the features of the activities of machine-building enterprises and assumes the possibility of joint use of their fixed assets. Economic and social criteria for the efficiency of fixed assets sharing are formulated in terms of maximizing the profit of enterprises, minimizing logistics and downtime costs. The optimal modes of joint use of the fixed assets concerning these criteria are investigated. It is shown that the joint use of fixed assets under the certain conditions can significantly improve the efficiency of the operating activities of enterprises.

Keywords

asset management, fixed assets, sharing, digital platform, production and transport problem

Received

09.06.2021

Publication date

13.12.2021

Number of characters

24181

Cite

GOST	Kolesnik G., Rybakov M. Mathematical model of fixed assets’ joint use by the machine-building enterprises // Ekonomika i matematicheskie metody – 2021. – V. 57. – Issue 4 C. 96-107 [Electronic resource]. URL: https://emm.jes.su/S042473880017517-7-1 (circulation date: 02.05.2024). DOI: 10.31857/S042473880017517-7
MLA	Kolesnik, Georgy, Rybakov, Mikhail "Mathematical model of fixed assets’ joint use by the machine-building enterprises." Ekonomika i matematicheskie metody 57.4 (2021):96-107. DOI: 10.31857/S042473880017517-7
APA	Kolesnik G., Rybakov M. (2021). Mathematical model of fixed assets’ joint use by the machine-building enterprises. Ekonomika i matematicheskie metody 57(4), pp.96-107 DOI: 10.31857/S042473880017517-7

100 rub.

When subscribing to an article or issue, the user can download PDF, evaluate the publication or contact the author. Need to register.

Number of purchasers: 0, views: 425

Readers community rating: votes 0

1. Akhmadieva M.S. (2017). Crowdfinance, state and prospects of development at the present stage. Symbol of Science, 1, 4, 22–35 (in Russian).

2. Baines T.S., Lightfoot H.W., Benedettini O., Kay J.M. (2009) The servitization of manufactur-ing: A review of literature and reflection on future challenges. Journal of Manufacturing Technology Management, 20 (5), 547–567. DOI: 10.1108/17410380910960984.

3. Belk R. (2014). You are what you can access: Sharing and collaborative consumption online. Journal of Business Research, 67 (8), 1595–1600. DOI: 10.1016/j.jbusres.2013.10.001

4. Bendikov M.A., Mishchenko A.V., Solodovnikov V.V. (2019). Economic and mathematical approach to tactical planning of supply chain of geographically distributed industrial enterprises (case of coal holding). Logistics and Supply Chain Management, 3 (92), 18–28 (in Russian).

5. Bettoni A., Barni A., Sorlini M., Menato S., Giorgetti P., Landolfi G. (2018). Multi-sided digital manufacturing platform supporting exchange of unused company potential. IEEE Interna-tional Conference on Engineering, Technology and Innovation (ICE/ITMC), 1–9. DOI: 10.1109/ICE.2018.8436294

6. Bezdelov S.A. (2018). Financial digitalization for the stimulation of regional development and the neutralization of sanitations’ risks. Federalism, 2 (90), 129–140 (in Russian).

7. Cheng M. (2016) Sharing economy: A review and agenda for future research. International Jour-nal of Hospitality Management, 57, 60–70. DOI: 10.1016/j.ijhm.2016.06.003/

8. Ferran V.-H., Bustinza O.F., Parry G., Georgantzis N. (2017). Servitization, digitization and supply chain interdependency. Industrial Marketing Management, 60, 69-81. DOI: 10.1016/j.indmarman.2016.06.013

9. Golstein E.G., Sokolov N.A. (1997). Decomposition method for solving production and transport problems. Economics and Mathematical Methods, 33, 1, 112–128 (in Russian).

10. Lvov D.S., Mednitsky V.G., Mednitsky Yu.V., Ovsienko Yu.V. (1996). On the evaluation of the efficiency of large-scale economic facilities. Economics and Mathematical Methods, 32, 1, 5–18 (in Russian).

11. Mair J., Reischauer G. (2017). Capturing the dynamics of the sharing economy: Institutional re-search on the plural forms and practices of sharing economy organizations. Technological Forecasting and Social Change, 125 (C), 11–20. DOI: 10.1016/j.techfore.2017.05.023

12. Manilov A.N. (2017). Iterative algorithm for solving production and transport placement problems with a nonlinear production cost function. Proceedings of the St. Petersburg State Agrarian University, 49, 237–244 (in Russian).

13. Mednitsky V.G., Fattakhov R.V., Bushansky S.P. (2003). Large-scale investment projects: Mod-eling and economic assessment. Moscow: Nauka (in Russian).

14. Muñoz P., Cohen B. (2017). Mapping out the sharing economy: A configurational approach to sharing business modeling. Technological Forecasting and Social Change, 125 (C), 21–37. DOI: 10.1016/j.techfore.2017.03.035

15. Platonova E.D. (2019). Study of the genesis and evolution of the concept of a sharing economy in foreign publications (based on the Scopus database). The Eurasian Scientific Journal, 11, 1, 34–45 (in Russian).

16. Popovich L.G., Drogovoz P.A. (2009). Organizational-economic design of integrated scientific-production structures in military industrial complex of Russian Federation. Audit and Finan-cial Analysis, 1, 284–302 (in Russian).

17. Rogulin R.S., Nechaev P.V., Pleshanov D.E., Evdakimova N.S., Goncharov E.D., Maksimenko V.I. (2018). Complex optimization problem of production-transport processes. Applied Com-puter Science, 13, 6 (78), 133–141 (in Russian).

18. Scaraboto D. (2015). Selling, sharing, and everything in between: The hybrid economies of colla-borative networks. Journal Consumer Research, 42, 1, 152-176. DOI: 10.1093/jcr/ucv004

19. Selezneva I.E. (2020). Competition management models in high-tech industries. Monograph. Moscow: RAS Institute of Control Sciences (in Russian).

20. Selezneva I.E., Klochkov V.V. (2020). Problems of decision making in the sphere of innovative development of the Russian high-tech industry. Drukerovskiy Vestnik, 2 (34), 89–106 (in Russian).

21. Shmeleva A.N., Bezdelov S.A., Rybakov M.B. (2020). Prospects for the development of the Rus-sian sharing economy. Competency (Russia), 7, 4–10 (in Russian).

22. Silva H.D., Soares A.L., Bettoni A., Barni A., Albertario S. (2019). A digital platform architec-ture to support multi-dimensional surplus capacity sharing. Collaborative Networks and Digital Transformation. PRO-VE 2019. IFIP Advances in Information and Communication Technology, 568. DOI: 10.1007/978-3-030-28464-0_28

23. Urintsov A.I., Staroverova O.V., Sviridova E.S. (2019). Perspective digital-trends and their influ-ence on the development of the digital economy. Bulletin of the Moscow University of the Ministry of Internal Affairs of Russia, 4, 268–272. DOI: 10.24411/2073-0454-2019-10237 (in Russian).

24. Vandermerwe S., Rada J. (1988). Servitization of business: Adding value by adding services. Eu-ropean Management Journal, 6 (4), 314–324. DOI: 10.1016/0263-2373(88)90033-3

25. Voloshchuk S.D., Kolesnik G.V., Nevskaya E.M. (2006). Non-market factors in the assessment of the value of enterprises of the military-industrial complex. Monograph. Moscow: Center for Defense Problems of the Academy of Military Sciences (in Russian).

26. Yudin D.B., Golstein E.G. (2010). Problems and methods of linear programming. Transport-type tasks. Moscow: URSS (in Russian).