DEVELOPMENT OF A ROUTE TECHNOLOGY FOR MANUFACTURING PRODUCTS OF DISTRIBUTED INSTRUMENT MANUFACTURING Journal of instrument engineering

DOI 10.17586/0021-3454-2025-68-12-1101-1108
UDC 65.011.56

DEVELOPMENT OF A ROUTE TECHNOLOGY FOR MANUFACTURING PRODUCTS OF DISTRIBUTED INSTRUMENT MANUFACTURING

M. V. Ponomarenko
ITMO University, Faculty of Control Systems and Robotics ;

Y. S. Andreev
ITMO University, Department of Instrument-Making Technology ; Associate professor

Reference for citation: Ponomarenko M. V., Andreev Yu. S. Development of a route technology for manufacturing products of distributed instrument manufacturing. Journal of Instrument Engineering. 2025. Vol. 68, N 12. P. 1101–1108 (in Russian). DOI: 10.17586/0021-3454-2025-68-12-1101-1108.

Abstract. The key challenges of creating a part manufacturing route during production preparation are identified. A method for creating a processing route taking into account the current and planned capabilities of the equipment and creating an optimal sequence of operations through the use of an intelligent enterprise resource planning system is proposed.

Keywords: creation of a manufacturing route for a part, sequence of operations, technological system, criteria for an optimal route, instrumentation, automation of technological preparation of production, rational use of equipment

References:

Rasporyazheniye Pravitel’stva RF ot 17.11.2008 N 1663-r (red. ot 14.12.2009) “Ob utverzhdenii osnovnykh napravleniy deyatel’nosti Pravitel’stva RF na period do 2012 goda i perechnya proyektov po ikh realizatsii” ot 17.11.2008 N 1663-r (Russian Government Order No. 1663-r of November 17, 2008 (as amended on December 14, 2009) “On Approval of the Main Activities of the Government of the Russian Federation through 2012 and the List of Projects for Their Implementation” dated November 17, 2008 No. 1663-r.). (in Russ.)
“Kompleksnaya programma razvitiya aviatransportnoy otrasli Rossiyskoy Federatsii do 2030 goda” ot 25 iyunya 2022 g N 1693-r 3 (“Comprehensive Program for the Development of the Air Transport Industry of the Russian Federation through 2030” dated June 25, 2022, No. 1693-r). (in Russ.)
https://www.tadviser.ru/index.php/Статья:Авиационная промышленность России. (in Russ.)
https://tehnoomsk.ru/archives/16734. (in Russ.)
Rasporyazheniye “Strategiya razvitiya elektronnoy promyshlennosti Rossiyskoy Federatsii na period do 2030 goda” ot 17.01.2020 N 20-r (Order “Strategy for the Development of the Electronics Industry of the Russian Federation through 2030” dated January 17, 2020, No. 20-r). (in Russ.)
https://kazedu.com/referat/59557/1. (in Russ.)
Khrustaleva I.N., Lyubomudrov S.A., Romanov P.I. Global’naya energiya, 2018, no. 1(24), pp. 113–121. (in Russ.)
https://rostestural.com/texnicheskaya-dokumentaciya/razrabotka-tehnologicheskoj-karty/#. (in Russ.)
Zerniy Yu.V., Polyvany A.G., Yakushin A.A. Upravleniye kachestvom v priborostroyenii (Quality Management in Instrument Engineering), Moscow, 2011, 479 р. (in Russ.)
Volkov I., Andreev Y. 2025 International Russian Smart Industry Conference (SmartIndustryCon), IEEE, 2025, рр. 984–989.
Basova T.V., Andreev Y.S. 2024 International Russian Smart Industry Conference (SmartIndustryCon), IEEE, 2024, рр. 488–493.
Azbel V.O. et al. Gibkoye avtomatizirovannoye proizvodstvo (Flexible Automated Production), Leningrad, 1985. (in Russ.)
https://asana.com/ru/resources/critical-path-method. (in Russ.)
https://developers.sber.ru/help/business-development/enterprise-resources. (in Russ.)
Pavlenko A.V., Kovaleva E.G., Radoutskiy V.Yu. Bulletin of the Belgorod State Technological University named after V.G. Shukhov, 2015, no. 3, pp. 106–109. (in Russ.)
Gvozdinskiy A.N., Rudnev V.K. Radioelektronika i informatika, 2013, no. 4(63), pp. 87–91. (in Russ.)
Gvozdinskiy A.N., Litvinovskiy A.Yu. Radioelektronika i informatika, 2013, no. 4(63), pp. 39–44. (in Russ.)

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