«Automation and Informatization of the fuel and energy complex»

Development of the concept of an adaptive automated environmental management system based on a self-organizing network

UDC: 004+681.51
DOI: -

Authors:

¹ Orenburg State University, Orenburg, Russia

Keywords: adaptive management, self-organized networks, automation, control, model, algorithm

Annotation:

The paper examines the process of managing the environmental situation at a gas processing plant. It changes because technological equipment doesn’t meet environmental requirements, pipelines become corroded, and outdated turbines increase the risk of CO2 emissions. In addition, working on outdated equipment produce risks of environmental disaster, and if there is unreliable information about the safe operation of a technological installation, a person is is subject to not only administrative but also criminal threats. This article describes an adaptive management system and its integration with self-organizing networks. A multi-level adaptive control system is considered, which enable collecting information from sensors, analyzing it, making a decision and transmitting the information to the top level. A subtype of a self-organizing network with an algorithm integrated into a simulation model for managing an environmental situation is presented. It is shown that the use of the Kohonen self-organizing network makes it possible to group emission data, quickly adapt the system in case of sensor failure, predict and minimize further emissions of substances into the atmosphere, which improves the environmental situation.

Bibliography:

1. Analiz sostoyaniya i perspektivy razvitiya samoorganizuyushchikhsya setey / A.V. Proskochilo, A.V. Vorob'ev, M.S. Zryakhov, A.S. Kravchuk // Nauchnye vedomosti Belgorodskogo gosudarstvennogo universiteta. Seriya: Ekonomika. Informatika. – 2015. – № 19(216). – S. 177–186.
2. Pavlov N.I., Kulesh M.M. Global'nye sistemy monitoringa okruzhayushchey sredy i fonovyy monitoring // Vestnik Dal'nevostochnoy gosudarstvennoy akademii ekonomiki i upravleniya. – 2000. – № 4(16). – S. 66–75.
3. Sovremennaya avtomatizatsiya proizvodstva gazovogo promysla s ispol'zovaniem kompleksnykh algoritmov upravleniya i regulirovaniya / D.A. Popov, V.A. Girichev, N.A. Mel'nikov, R.I. Dosaev // Avtomatizatsiya i informatizatsiya TEK. – 2022. – № 4(585). – S. 36–51. – DOI: 10.33285/2782-604X-2022-4(585)-36-51
4. Teoriya avtomaticheskogo upravleniya: uchebnik dlya vuzov po spetsial'nosti "Avtomatika i telemekhanika": v 2 ch. Ch. II. Teoriya nelineynykh i spetsial'nykh sistem avtomaticheskogo upravleniya / A.A. Voronov, D.P. Kim, V.M. Lokhin [i dr.]; pod red. A.A. Voronova. – 2-e izd., pererab. i dop. – M.: Vysshaya shkola, 1986. – 504 s.
5. Hu Fei, Cao Xiaojun. Wireless Sensor Networks: Principles and Practice. – Glamorgan: CRC Press, 2010. – 546 p.
6. Åström K.J., Wittenmark B. Adaptive Control. – 2nd ed. – Massachusetts: Dover Publications, 2008. – 608 p.
7. Ioannou P.A., Sun Jing. Robust Adaptive Control. – PTR Prentice-Hall, 2012. – 825 p.
8. Pugacheva D.B., Yudin A.V. Primenenie karty Kokhonena dlya analiza statisticheskikh dannykh regionov dlya podderzhki prinyatiya resheniy po ikh optimizatsii // Inzhenerno-stroitel'nyy vestnik Prikaspiya. – 2024. – № 1(47). – S. 146–150. – DOI: 10.52684/2312-3702-2024-47-1-146-150
9. Gorbachenko V.I. Seti i karty Kokhonena. – 2010. – URL: http://gorbachenko.self-organization.ru/articles/Self-organizing_map.pdf