Scientific and technical journal

«Automation and Informatization of the fuel and energy complex»

ISSN 0132-2222

Automation and Informatization of the fuel and energy complex
№ 1(594), January 2023
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Application specifics of the network-centric concept when designing and developing modern automated information control systems (AICS) in the fuel and energy complex

UDC: 681.5:622.276
DOI: 10.33285/2782-604X-2023-1(594)-26-36

Authors:

STANKEVICH ANNA S.1,
STEPIN YURY P.1

1 National University of Oil and Gas "Gubkin University", Moscow, Russia

Keywords: network-centric control methods, network-centrism, monitoring, self-synchronization, interoperability, network-centric systems, project management, IT-projects, AICS development

Annotation:

The article considers the problems of the network-centric concept application when designing modern AICS implementation according to Industry 4.0 in the landscape of distributed companies (represented in the fuel and energy complex of vertically integrated oil companies (VIOC), which transform the traditional AICS of an enterprise into network-centric AICS. The key aspects of the network-centric concept as applied to the issues of AICS design and development are described. As a continuation of the previous research, the article formulates requirements for AICS's components to ensure the implementation of interoperability, monitoring and self-synchronization. The article proposes the architecture of the network-centric AICS and its environment in the IT landscape of the organization, which forms the information management digital platform of the enterprise, providing the implementation of the network-centric control model.

Bibliography:

1. Chto takoe tsifrovaya ekonomika? Trendy, kompetentsii, izmerenie: dokl. k XX Apr. mezhdunar. nauch. konf. po problemam razvitiya ekonomiki i obshchestva, Moskva, 9–12 apr. 2019 g. / G.I. Abdrakhmanova, K.O. Vishnevskiy, L.M. Gokhberg [i dr.]; nauch. red. L.M. Gokhberg; Nats. issled. un-t "Vysshaya shkola ekonomiki". – M.: Izd. dom Vysshey shkoly ekonomiki, 2019. – 82 s.
2. Podtserob M. Kakimi tsifrovymi proektami zanyaty rossiyskie predpriyatiya. – URL: https://www.vedomosti.ru/management/articles/2019/12/04/817894-kakimi-tsifrovimi (data obrashcheniya 23.05.2021).
3. Trakhtengerts E.A., Pashchenko F.F. Setetsentricheskie metody upravleniya v krupnomasshtabnykh setyakh. – M.: URSS, 2016. – 200 s.
4. Setetsentricheskie metody upravleniya / V.A. Ivanyuk, N.M. Abdikeev, F.F. Pashchenko, N.V. Grineva // Upravlen-cheskie nauki. – 2017. – T. 7, № 1. – S. 26–34.
5. Trakhtengerts E.A. Setetsentricheskie metody komp'yuternogo protivodeystviya katastrofam i riskam // Upravlenie bol'shimi sistemami: sb. tr. – M.: In-t problem upravleniya im. V.A. Trapeznikova RAN, 2013. – № 41. – S. 162–248.
6. Trakhtengerts E.A. Ispol'zovanie setetsentricheskogo printsipa samosinkhronizatsii v upravlenii // Otkrytoe obrazovanie. – 2015. – № 2(109). – S. 15–23.
7. Mikryukov A.A. Sovershenstvovanie upravleniya predpriyatiem na osnove setetsentricheskogo podkhoda // Innovatsionnye, informatsionnye i kommunikatsionnye tekhnologii. – 2019. – № 1. – S. 132–137.
8. Trakhtengerts E.A. Ispol'zovanie dvukh setetsentricheskikh printsipov modifikatsii ekonomicheskikh tseley i strategiy v krizisnoy situatsii // Upravlenie bol'shimi sistemami: sb. tr. – M.: In-t problem upravleniya im. V.A. Trapeznikova RAN, 2013. – № 45. – S. 289–329.
9. GOST R 55062-2012. Informatsionnye tekhnologii (IT). Sistemy promyshlennoy avtomatizatsii i ikh integratsiya. Interoperabel'nost'. Osnovnye polozheniya. – Vved. 2013–09–01. – M.: Standartinform, 2014. – IV, 8 s.
10. Chernitskaya T.E., Makarenko S.I., Rastyagaev D.V. Aspekty avtomatizatsii funktsiy upravleniya, prinyatiya resheniy i setevogo vzaimodeystviya v ramkakh otsenki interoperabel'nosti setetsentricheskikh informatsionno-upravlyayushchikh sistem // Vestn. Rossiyskogo novogo un-ta. Ser.: Slozhnye sistemy: modeli, analiz i upravlenie. – 2020. – № 3. – S. 138–145. – DOI: 10.25586/RNU.V9187.20.03.P.138
11. Stankevich A.S., Stepin Yu.P. Sistemnaya mnogokriterial'naya model' IT-proekta po realizatsii ASUP kak mnogokomponentnykh ob"ektov v usloviyakh neopredelennosti i riska // Avtomatizatsiya i informatizatsiya TEK. – 2022. – № 8(589). – S. 15–27. – DOI: 10.33285/2782-604X-2022-8(589)-15-27
12. Systems, Capabilities, Operations, Programs, and Enterprises (SCOPE) Model for Interoperability Assessment / R. Creps, L. Martin, H. Polzer [et al.]. – NCOIC, 2008. – V, 154 p.
13. Podkhod k obespecheniyu interoperabel'nosti v setetsentricheskikh sistemakh upravleniya / A.A. Bashlykova, S.V. Kozlov, S.I. Makarenko [i dr.] // Zhurn. radioelektroniki. – 2020. – № 6. – S. 15. – DOI: 10.30898/1684-1719.2020.6.13
14. Makarenko S.I. Tekhnicheskaya interoperabel'nost' i ergonomika cheloveko-mashinnykh interfeysov setetsentricheskikh sistem // Zhurn. radioelektroniki. – 2022. – № 3. – S. 5. – DOI: 10.30898/1684-1719.2022.3.4
15. Makarenko S.I., Solov'eva O.S. Osnovnye polozheniya kontseptsii semanticheskoy interoperabel'nosti setetsentri-cheskikh sistem // Zhurn. radioelektroniki. – 2021. – № 4. – S. 14. – DOI: 10.30898/1684-1719.2021.4.10
16. Makarenko S.I. Semanticheskaya sovmestimost' chelove-cheskikh agentov pri obespechenii interoperabel'nosti v setetsentricheskikh sistemakh // Zhurn. radioelektroniki. – 2022. – № 1. – S. 6. – DOI: 10.30898/1684-1719.2022.1.1
17. Trakhtengerts E.A. Komp'yuternaya podderzhka peregovorov pri soglasovanii upravlencheskikh resheniy. – M.: SINTEG, 2003. – 284 s.
18. Stepin Yu.P. Komp'yuternaya podderzhka formirovaniya, mnogokriterial'nogo ranzhirovaniya i optimizatsii upravlencheskikh resheniy v neftegazovoy otrasli. – M.: Nedra, 2016. – 421 s.
19. Stepin Yu.P. Proektirovanie avtomatizirovannykh sistem upravleniya proizvodstvom v neftyanoy i gazovoy promyshlennosti. Bazovye metody i modeli: ucheb. posobie. – M.: Izdat. tsentr RGU nefti i gaza (NIU) im. I.M. Gubkina, 2021. – 339 s.
20. Trakhtengerts E.A., Stepin Yu.P. Metody komp'yuternoy podderzhki formirovaniya tseley i strategiy v neftegazovoy promyshlennosti. – M.: SINTEG, 2007. – 244 s. – (Sistemy i problemy upravleniya).
21. Boev S.F., Rakhmanov A.A., Sloka V.K. Setetsentricheskie sistemy regional'nogo urovnya real'nogo masshtaba vremeni // Mekhatronika, avtomatizatsiya, upravlenie. – 2009. – № 3. – S. 64–68.
22. Trakhtengerts E.A., Pashchenko F.F. Massirovanie rezul'tatov i samosinkhronizatsiya v setetsentricheskikh sistemakh // Problemy mashinostroeniya i avtomatizatsii. – 2017. – № 2. – S. 4–12.
23. Shershakov V.M., Trakhtengerts E.A., Kamaev D.A. Setetsentricheskie metody komp'yuternoy podderzhki upravleniya likvidatsiey posledstviy chrezvychaynykh situatsiy. – M.: Lenand, 2014. – 160 s.
24. Sovremennye tekhnologii. Kiberfizicheskie sistemy: ucheb. posobie / Avt.-sost. E.I. Gromakov, A.A. Sidorova; Tomskiy politekhn. un-t. – Tomsk: Izd-vo Tomskogo politekhn. un-ta, 2021. – 166 s.
25. Razrabotka i vnedrenie ASU "Kuznetsov" s primeneniem setetsentricheskogo podkhoda i mul'tiagentnykh tekhnologiy / A.V. Shishov, A.S. Vylegzhanin, Ya.Yu. Shepilov [i dr.] // XII vseros. soveshch. po problemam upravleniya VSPU-2014, Moskva, 16–19 iyulya 2014 g. – M.: In-t problem upravleniya im. V.A. Trapeznikova RAN, 2014. – S. 9050–9062.
26. TECHNICAL REPORT ISO/IEC TR 14252:1996. ANSI/IEEE Std 1003.0. – Information technology – Guide to POSIX ® Open System Environment (OSE). – First edition. – IEEE, 1996. – 261 p.