Author(s):
Moskvichev Vladimir Viktorovich
Dr. , Professor
Position: Director
Office: Federal Research Center for Information and Computational Technologies,Siberian Federal University
Address: 660049, Russia, Krasnoyarsk, Mira pr., 53
Phone Office: (391) 227-29-12
E-mail: krasn@ict.nsc.ru
SPIN-code: 9332-6468

Nicheporchuk Valeriy Vasilyevich
Dr.
Position: Senior Research Scientist
Office: Institut of Computing Simulation of SB RAS
Address: 660036, Russia, Krasnoyarsk, Akademgorodok, 50/44
Phone Office: (913) 830-5949
E-mail: valera@icm.krasn.ru
SPIN-code: 7018-8279

Potapov Vadim Petrovich
Dr. , Professor
Position: Leading research officer
Office: Federal Research Center for Information and Computational Technologies
Address: 650003, Russia, Kemerovo, Akademgorodok, 50/44
Phone Office: (3842) 21-14-00
E-mail: vadimptpv@gmail.com
SPIN-code: 8947-1880

Taseiko Olga Viktorovna
PhD. , Associate Professor
Position: Head of Chair
Office: Federal Research Center for Information and Computational Technologies, Reshetnev Siberian State University of Science and Technology
Address: 660037, Russia, Krasnoyarsk, Office L-409, 410, 31, Krasnoyarsky Rabochy Av.
Phone Office: (923)-280-52-10
E-mail: taseiko@gmail.com
SPIN-code: 4032-4299

References:

1. Bez asnosti [Safety of Russia. Legal, socioeconomic and scientific and technical aspects. Fundamental and applied problems of integratedsecurity]. Moscow: MGOF Znanie; 2017: 992. (In Russ.)

2. Prikaz Rostekhnadzora ot 11.04.2016 N 144. “Ob utverzhdenii Rukovodstva po bezopasnosti “Metodicheskie osnovy po provedeniyu analiza opasnostey i otsenki ris ka avariy na opasnykh proizvodstvennykh ob’ektakh” [“On approval of the Safety Guide “Methodological foundations forconducting hazard analysis and risk assessment of accidents at hazardous production facilities”]. Available at: http://docs.cntd.ru/document/420347908 (accessed 15.03.2021). (In Russ.)

3. 116-FL from 21.07.1997. Federal’nyy zakon o promyshlennoy bezopasnosti opasnykh proizvodstvennykh ob’ektov (s izmeneniyami na 8 dekabrya 2020 goda) [Federal Law on Industrial Safety of Hazardous Production Facilities (as amended on December 8, 2020)]. Available at: http://base.garant.ru/11900785 (accessed 15.03.2021). (In Russ.)

4. Makhutov N.A. Prochnost’ i bezopasnost’: Fundamental’nye i prikladnye issledovaniya [Strength and safety: Basic and applied research]. Novosibirsk: Nauka; 2008: 528. (In Russ.)

5. Saulova T.A., Besedina I.N., Nicheporchuk V.V. Otsenka ustoychivosti pozharovzryvoopasnykh ob’ektov v chrezvychaynykh situatsiyakh. Seriya “Bezopasnost’ v chrezvychaynykh situatsiyakh” [Assessment of the stability of fire and explosive objects in emergency situations. Emergency Safety
Series: Method. manual. for students special. 280101 “Life safety in the technosphere”]. Krasnoyarsk: SibGTU; 2011: 84. (In Russ.)

6. Bashkin V.N. Ekologicheskie riski: Raschet, upravlenie, strakhovanie [Environmental risks: Calculation, management, insurance: Textbook allowance]. Moscow: Vysshaya Shkola; 1994: 360. (In Russ.)

7. GOST R55059-2012. Bezopasnost’ v chrezvychaynykh situatsiyakh. Menedzhment riska ChS. Terminy i opredeleniya [GOST Р55059-2012. Safety in emergencies. Emergency risk management. Terms and Definitions]. Available at: http://docs.cntd.ru/document/1200102321 (accessed 15.03.2021). (In Russ.)

8. Anshukova M.V. Modern information technology security and risk analysis. Monitoring. Science and Security. 2013; 12(4):80–91. (In Russ.)

9. Belov P.G. Sistemnyy analiz i modelirovanie opasnykh protsessov v tekhnosfere: Uchebnoe posobie dlya vuzov [System analysis and modelling of hazardous processes in the technosphere: Textbook for universities]. Moscow: Akademiya; 2003: 512. (In Russ.)

10. Atlas prirodnykh i tekhnogennykh opasnostey i riskov ChS: Nauchnoe izdanie MChS Rossii [Atlas of natural and man-made hazards and risks of emergencies: Scientific publication EMERCOM of Russia]. Moscow: Feoriya: Ob’edinennaya redaktsiya MChS; 2011: 652. (In Russ.)

11. Atlas prirodnykh i tekhnogennykh opasnostey i riskov chrezvychaynykh situatsiy v Rossiyskoy Federatsii. Pod obshchey redaktsiey S.K. Shoygu [Atlas of natural and man-made hazards and risks of emergency situations in the Russian Federation. Ed. by S.K. Shoigu]. Moscow: IPTs “Dizayn.
Informatsiya. Kartografiya”; 2010: 696. (In Russ.)

12. Atlas riska pozharov na territorii Rossiyskoy Federatsii: Nauchnoe izdanie MChS Rossii [Atlas of fire risks in the territory of the Russian Federation: Scientific publication. EMERCOM of Russia]. Moscow: Feoriya: Ob’edinennaya redaktsiya MChS; 2011: 720. (In Russ.)

13. Vereskun A.V., Zinoviev S.V., Oltyan I.Yu., Baryshev E.M., Baler M.A. Kompleksnoe issledovanie vliyaniya riskov prirodnykh i tekhnogennykh ChS na bezopasnost’ zhiznedeyatel’nosti naseleniya Respubliki Krym i g. Sevastopolya [Comprehensive study of the impact of natural and man-made emergenciesrisks on the life safety of the population of the Republic of Crimea and the city of Sevastopol]. Moscow: VNII GOCHS (FTs); 2015: 208. (In Russ.)

14. Complete flood management with ArcGIS. Available at: https://waterresources.maps.arcgis.com/apps/MapSeries/index.html (accessed 10.02.21).

15. Mitakovich S.A., Zayaz E.V. Modern GIS technologies for monitoring and forecasting of emergency situations. Bashkirskiy Ekologicheskiy Vestnik. 2011; 28–29(3–4):57–62. (In Russ.)

16. Nikonorova S.M., Solovyeva S.V., Sitkina К.S. Ustoychivoe razvitie regionov i gorodov Povolzh’ya: Kollektivnaya monografiya [Sustainable development of regions and cities of the Volga region: Collective monograph]. Moscow: Ekonomicheskiy Fakul’tet MGU im. M.V. Lomonosova;
2020: 255. (In Russ.)

17. Bobyleva S.N., Grigor’eva L.M. Doklad o chelovecheskom razvitii v Rossiyskoy Federatsii za 2017 god [Human development report for the Russian Federation]. Moscow: Analiticheskiy Tsentr pri Pravitel’stve Rossiyskoy Federatsii; 2017: 292. (In Russ.)

18. Postanovlenie No. 60 Pravitel’stva Respubliki Altay ot 13.03.2018 “O strategii sotsial’noekonomicheskogo razvitiya Respubliki Altay na period do 2035 goda” [Resolution No. 60 of the Government of the Altai Republic of 13.03.2018 “On the strategy of social and economic development of the Altai Republic for the period up to 2035”]. Available at: https://www.altai-republic.ru/ investments/strategy-of-social-economic (accessed 19.10.21). (In Russ.)

19. Zamyatina M.F. Regional environmental and economic development in the context of contemporary challenges. Economics and Management. 2019; (3):23–31. (In Russ.)

20. Tatarkin А.I., Davankov А.Yu., Pryakhin G.N., Sedov V.V., Shumakov А.Yu. Upravleniesbalansirovannym razvitiem territorial’nykh sistem: Voprosy teorii i praktiki [Management for the balanced development of territorial systems: Theory and practice]. Chelyabinsk: ChelGU; 2016: 295.
(In Russ.)

21. Normativno pravovoy akt MChS Rossii ot 04.11.2004 g. No. 506 “Ob utverzhdenii tipovogo pasporta bezopasnosti opasnogo ob’ekta” [Order of EMERCOM of Russia of 04.11.2004 No. 506 “On approval of the standard safety data sheet for a hazardous facility”]. Available at: https://www.mchs.gov.ru/
dokumenty/762 (accessed 06.08.21). (In Russ.)

22. Prikaz MChS Rossii ot 25 oktyabrya 2004 g. No. 484 “Ob utverzhdenii tipovogo pasporta bezopasnosti territoriy sub’ektov RF i munitsipal’nykh obrazovaniy” [Order of EMERCOM of Russia of 25.10.2004 No. 484 “On approval of the standard safety data sheet for the territories of the constituent entities of the Russian Federation and municipalities”]. Available at: https://www.mchs.gov.ru/dokumenty/763 (accessed 06.08.21). (In Russ.)

23. Babintsev I.V., Nekrasov I.V., Nicheporchuk V.V. Concept of formation of safety passports of territories with the use of modern information technologies. Siberian Fire and Rescue Bulletin. 2018; 3(10):17–22. (In Russ.)

24. Nicheporchuk V.V., Penkova T.G. Area’s certificate — Dynamic analysis tool of hazards. Nauchnye i Obrazovatel’nye Problemy Grazhdanskoy Zashchity. 2014; (1):3–8. (In Russ.)

25. Grazhdankin A.I., Pecherkin A.S., Sidorov V.I. Permissible risk is a measure of the unacceptable hazard of an industrial accident. Bezopasnost’ Truda v Promyshlennosti. 2015; (3):66–70. (In Russ.)

26. Safety of Russia. Legal, socio-economic and scientific and technical aspects. Scientific fundamentals of technogenic safety. Moscow: MGOF Znanie; 2017: 992. (In Russ.)

27. Malkin V.S. Nadezhnost’ tekhnicheskikh sistem i tekhnogennyy risk [Reliability of technical systems and technogenic risk]. Rostov-na-Donu: Feniks; 2010: 432. (In Russ.)

28. Akhmetkhanov R.S., Dubinin E.F., Kuksova V.I. Application of fuzzy sets for risk assessment and management. Problemy Bezopasnosti i Chrezvychaynykh Situatsiy. 2015; (4):56–72. (In Russ.)

29. Technology for disaster reduction. Available at: https://www.undrr.org (accessed 06.08.21).

30. Faleev M.I. Upravlenie riskami tekhnogennykh katastrof i stikhiynykh bedstviy (posobie dlya rukovoditeley organizatsiy). Monografiya [Risk management of man-made and natural disasters (a guide for leaders of organizations). Monograph]. Moscow: VNII GOCHS (FTs); 2016: 270. (In Russ.)

31. Faleev M.I., Oltyan I.Yu. A methodology and technology for risk assessment based on open data. Issues of Risk Analysis. 2018; 15(4):6–19. (In Russ.)

32. Taming natural disasters. Multi-jurisdictional local hazard mitigation plan for the San Francisco bay area. Available at: https://www.sanjoseca.gov/home/showpublisheddocument/19465/636684931138530000 (accessed 06.08.21).

33. Wood M., Jelinek R. Risk mapping in the new member states. A summary of general practices for mapping hazards, vulnerability and risk. European Commission Joint Research Centre. Institute for the Protection and Security of the Citizen; 2007: 30.

34. Makhutov N.A., Gadenin M.M., Yudina O.N. The scientific analysis of risks in life-support of a person, a society and the state. Issues of Risk Analysis. 2019; 16(2):70–89. (In Russ.)

35. Moskvichev V.V., Bychkov I.V., Potapov V.P., Taseiko O.V., Shokin Yu.I. Information system for territorial risk management development and safety. Bulletin of the Russian Academy of Sciences: Physics. 2017; 87(8):696–705. (In Russ.)

36. Moskvichev V.V., Nicheporchuk V.V., Potapov V.P., Taseiko O.V., Faleev M.I. Information support of monitoring and development risks for social, natural and technogenic systems. Issues of Risk Analysis. 2018; 15(2):56–77. (In Russ.)

37. Shokin Yu.I., Moskvichev V.V., Nozhenkova L.F., Nicheporchuk V.V. Crisis database for management of territorial risks. Computational Technologies. 2011; 16(6):115–126. (In Russ.)

38. Lepikhin A.M., Moskvichev V.V., Nicheporchuk V.V., Tridvornov A.V. Estimation and division into districts of extreme situations risk for territory of Krasnoyarsk Region. Safety and Emergency Problems. 2007; (5):124–133. (In Russ.)

39. Negus C., Henry W. Docker containers. Build and deploy with Kubernetes, Flannel, Cockpit, and Atomic. Indiana US: Pearson Education; 2015: 319.

40. Nicheporchuk V.V., Yarovoy A.V., Kozhemyakin N.L. A method for designing scenarios for actions in dangerous situations. Trudy Vseross. Nauchno-Prakt. Konf. “Monitoring, Modelirovanie i Prognozirovanie Opasnykh Prirodnykh Yavleniy i ChS” [Proc. of the All-Russian. Conf. “Monitoring, Modelling and Forecasting of Natural Hazards and Emergencies]. Zheleznogorsk: SibPSA GPS MChS Rossii; 2019: 47–58. (In Russ.)

41. Prikaz MChS Rossii ot 08.07.2004 g. No. 329 “Kriterii informatsii o ChS” [Order of EMERCOM of Russia of 08.07.2004 No. 329 “Emergency information criteria”]. Available at: https://docs.cntd.ru/document/902066864. (accessed17.11.21). (In Russ.)

42. Nicheporchuk V.V., Penkova T.G. Research of risk factors for assessment and management of natural and technogenic safety of territories. Materialy i Doklady VI Vseross. Nauchno-Prakt. Konf. “Bezopasnost’ i Monitoring Tekhnogennykh i Prirodnykh Sistem” [Proc. of the VI All-Russian. Conf. “Safety and Monitoring of Technogenic and Natural Systems”]. Krasnoyarsk: SFU; 2018: 81–86. (In Russ.)

43. Belskaya E.N., Medvedev A.V., Mikhov E.D., Taseiko O.V. Assessment of ecological situation using the method of nonparametric modelling. Ecology and Industry of Russia. 2017; 21(8):54–58. (In Russ.)

44. Levkevich V.E., Lepikhin A.M., Moskvichev V.V., Nikitenko V.G., Nicheporchuk V.V., Shaparev N.Ya., Shokin Yu.I. Bezopasnost’ i riski ustoychivogo razvitiya territoriy [Safety and risks of sustainable development of territories]. Krasnoyarsk: SFU; 2014: 224. (In Russ.)

45. Popov S.E., Zamaraev R.Yu. The software and metalanguage of algorithms for analysis of social and economic entities. Software Engineering. 2012; (7):27–33. (In Russ.)

46. Makhutov N.A. Bezopasnost’ i riski: Sistemnye issledovaniya i razrabotki [Safety and risks: System research and development]. Novosibirsk: Nauka; 2017: 724. (In Russ.)

47. Sbornik metodicheskikh dokumentov, primenyaemykh dlya nezavisimoy otsenki riskov v oblasti pozharnoy bezopasnosti, grazhdanskoy oborony i zashchity naseleniya i territoriy ot chrezvychaynykh situatsiy. Soyuz organizatsiy, osushchestvlyayushchikh ekspertnuyu deyatel’nost’ v oblasti zashchity naseleniya i territoriy ot chrezvychaynykh situatsiy, promyshlennoy, pozharnoy i ekologicheskoy bezopasnosti [A collection of methodological documents used for an independent risk assessment in the field of fire safety, civil defense and protection of the population and territories from emergencies. Union of organizations carrying out expert activities in the field of protection of the population and territories from emergencies, industrial, fire and environmental safety]. Part 1. Moscow: MChS Rossii; 2008: 704. (In Russ.)

48. Slovar’ osnovnykh terminov i opredeleniy sistemy “Bezopasnost’ v chrezvychaynykh situatsiyakh” [Glossary of basic terms and definitions of the system “Safety in emergency situations”]. Moscow: FGU VNII GOCHS (FTs); 2011: 336. (In Russ.)

49. Lea P. Internet of Thing for architects. Birmingham-Mumbai: Packt. Publishing; 2018: 454.

50. Oltyan I.Yu., Arefieva E.V., Krapukhin V.V., Lyakhovets T.L. Implementing Sendai framework and unisdr global campaign making cities resilient: “My city is getting ready!” in Russia. Tekhnologii Grazhdanskoy Bezopasnosti. 2017; 14(2(52)):330–38. (In Russ.)

51. Grieves M.W. Digital twin: Manufacturing excellence through virtual factory replication. Available at: https://scholar.google.com/citationsuser=0gGMvgkAAAAJhl=en (accessed 06.08.21). (In Russ.)

52. Ying Yang M., Rosenhahn B., Murino V. Multimodal scene understanding. Algorithms, applications and deep learning. London: Academic Press is an imprint of Elsevier; 2019: 406.

53. Richardson C. Microservices. Development and refactoring patterns. N.Y.: Manninig Publication Co.; 2019: 478.

54. Sayfan G. Mastering Kubernetes. Automating container deployment and management. Birmingham, UK: Packt Publishing Ltd.; 2017: 397.

55. Ibryam B., Hus R. Kubernetes patterns. Sebastopol, CA: O’Reilly Media; 2019: 246