I.V. Cheremidov 1

1 Siberian Federal University (Krasnoyarsk, Russia)
1 ichemidov@yahdex.ru

This paper addresses the critical issue of optimizing logistics processes within radio-electronic manufacturing enterprises and presents the development of a mathematical model for managing logistics within such an enterprise. The analysis focuses on the unique characteristics of these enterprises, namely the extensive variety of materials and components, lengthy manufacturing cycles, and the necessity for rapid response to changes in production order composition. A mathematical model for logistics management is proposed, which incorporates the specific production characteristics and optimizes warehousing operations. The model integrates a parallelism coefficient to enhance the efficiency of component assembly by enabling the concurrent execution of independent operations. Furthermore, the model accounts for constraints related to resource availability and time limitations. Based on this developed model, an architecture for a production logistics management system is proposed, providing key functionalities for inventory management, procurement planning, and the optimization of production processes and warehouse resources.

Cheremidov I.V. Development of the enterprise logistics management system model. Dynamics of complex systems. 2025. V. 19. № 1. P. 49−58. DOI: 10.18127/j19997493-202501-06 (in Russian).

1. Kazancev M.A. Sistema dispetcherizacii opytnogo i melkoserijnogo proizvodstva radioelektronnoj apparatury. Vestnik SibGAU. 2013. № 4(50). S. 27–32 (in Russian).
2. Galeev R.G., Kapulin D.V., Kazancev M.A. Proizvodstvennaya logistika priborostroitel'nogo predpriyatiya: Ucheb. posobie. Krasnoyarsk: SFU. 2021. S. 68–75 (in Russian).
3. Balakshin B.S. Osnovy tekhnologii mashinostroeniya. M.: Mashinostroenie. 1969. 358 s. (in Russian).
4. Zagidullin R.R. Upravlenie mashinostroitel'nym proizvodstvom s pomoshch'yu sistem MES, APS, ERP. Staryj Oskol: TNT. 2011. 372 s. (in Russian).
5. Zagidullin P.P., Kul'ga K.S. Avtomatizaciya proizvodstvennyh processov v mashinostroenii: Ucheb. posobie. Ufa: UGATU. 1999. 102 s. (in Russian).
6. Mitrofanov V.G. Matematicheskoe modelirovanie zadach mashinostroeniya. M.: STIN, H 9. 2000. S. 9–11 (in Russian).
7. Kantorovich L.V. Matematicheskie metody organizacii i planirovaniya proizvodstva. L.: LGU. 1939. 68 s. (in Russian).
8. Granichin O.N., Kiyaev V.I. Informacionnye tekhnologii v upravlenii. M.: Internet-universitet informacionnyh tekhnologij. 2010. 336 s. (in Russian).
9. Blekherman M.H. Gibkie proizvodstvennye sistemy (Organizacionno-ekonomicheskie aspekty). M.: Ekonomika. 1988. 221 s. (in Russian).
10. Sevast'yanov S.V. Geometricheskie metody i effektivnye algoritmy v teorii raspisanij. Avtoref. dissertacii … d.f.-m.n. Novosibirsk: Institut Soboleva RAN. 2000. 37 s. (in Russian).
11. Galeev R.G., Konnov V.G., Kazancev M.A., Chencov S.V. Informacionnaya podderzhka organizacii proizvodstva izdelij radioelektronnoj apparatury na predpriyatii AO «NPP «Radiosvyaz'». Zhurnal Sibirskogo federal'nogo universiteta. Ser.: Tekhnika i tekhnologii. 2014. T. 7. № 2. S. 758–766 (in Russian).