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DOI: 10.15507/2658-4123.032.202201.028-040

 

Safety of Automated Technologies for Regulating the Reclamation Regime of Agroecosystem

 

Irina F. Yurchenko
Chief Scientist of the Department of Environmental Protection and Information Technology, Kostyakov All-Russian Research Institute of Hydraulic Engineering and Land Reclamation (44, Bldg 2 Bolshaya Akademicheskaya St., Moscow 27550, Russian Federation), Dr.Sci. (Engr.), Associate Professor, ORCID: https://orcid.org/0000-0003-2390-1736, This email address is being protected from spambots. You need JavaScript enabled to view it.

Abstract 
Introduction. To create the safety system for automated technologies of agricultural production, it is necessary to study the problem of protecting automation means. The aim of the work is to substantiate the normative and methodological provisions on safe operation of automated technology for regulating the agroecosystem reclamation regime at the level of the economic entity.
Materials and Methods. The study is based on the key provisions of the information-analytical approach. In the course of the work, regulatory and methodological documents have been collected and analyzed, the experience of economic entities in the field of information protection of automated technologies has been systematized. The requirements of legislative acts for industrial safety of production facilities were summarized.
Results. The tasks for information and physical protection of automated control systems of reclamation agricultural production are formulated. There are systematized and characterized information protection factors, such as software updates, access control and password implementation, incident management, control over network solutions, and personnel training. Requirements for physical protection of automated agricultural production systems in accordance with the legislative acts of industrial safety are presented. The functional structure of the physical protection system for controlling the automated processes of the reclamation complex is determined.
Discussion and Conclusion. The application of the recommendations formulated in this work will help protect intellectual property, trade secrets, personal data and information resources, and solve the problem of information system security.

Keywords: safety, automated technologies, regulation, reclamation regime, agroecosystem

The author declares no conflict of interest.

For citation: Yurchenko I.F. Safety of Automated Technologies for Regulating the Reclamation Regime of Agroecosystem. Inzhenernyye tekhnologii i sistemy = Engineering Technologies and Systems. 2022; 32(1):28-40. doi: https://doi.org/10.15507/2658-4123.032.202201.028-040

The author has read and approved the final manuscript.

Submitted 01.07.2021; approved after reviewing 10.09.2021;
accepted for publication 20.09.2021

 

REFERENCES

1. Savina T.N. Digital Economy as a New Paradigm of Development: Challenges, Opportunities, and Prospects. Finansy i kredit = Finance and Credit. 2018; 24(3):579-590. (In Russ., abstract in Eng.) doi:https://doi.org/10.24891/fc.24.3.579

2. Storchak I.G., Eroshenko F.V., Oganyan L.R., et al. Assessment of Winter Wheat Plant Development during the Seeding and Tillering Stages According to the Earth Remote Sensing Data. Inzhenernyye tekhnologii i sistemy = Engineering Technologies and Systems. 2021; 31(1):21-36. (In Russ., abstract in Eng.) doi: https://doi.org/10.15507/2658-4123.031.202101.021-036

3. Subbotin I.A., Vasilev E.V. A Forecast Model of the Complex Negative Impact of Agricultural Production Technologies on Water Bodies. Inzhenernyye tekhnologii i sistemy = Engineering Technologies and Systems. 2021; 31(2):227-240. (In Russ., abstract in Eng.) doi: https://doi.org/10.15507/2658-4123.031.202102.227-240

4. Lehmann R.J., Reiche R., Schiefer G. Future Internet and the Agri-Food Sector: State-of-the-Art in Literature and Research. Computers and Electronics in Agriculture. 2012; 89:158-174. (In Eng.) doi: https://doi.org/10.1016/j.compag.2012.09.005

5. Yurchenko I.F. Decision Support System as a Factor for Improving Reclamation Management Efficiency. Nauchnyy zhurnal Rossiyskogo NII problem melioratsii = Scientific Journal of the Russian Research Institute of Land Reclamation Problems. 2017; (2):195-209. Available at: http://www.rosniipm-sm.ru/article?n=325 (accessed 31.08.2021). (In Russ., abstract in Eng.)

6. Bakalay G.T., Yurchenko I.F., Lentyaeva E.A., Yalalova G.Kh. Increase of Agriculturists Responsibility for the Reproduction of Soil Fertility Reclaimed Lands. Agrokhimicheskiy vestnik = Agrochemical Herald. 2015; (2):29-33. Available at: https://clck.ru/amCPH (accessed 31.08.2021). (In Russ., abstract in Eng.)

7. Kireycheva L.V., Yurchenko I.F., Yashin V.M. Models and Information Technologies for Water Management on the Reclamation System, Which Provides Favorable Reclamation Mode. Melioratsiya i vodnoe khozyaystvo = Melioration and Water Management. 2014; (5-6):50-55. Available at: https://elibrary.ru/item.asp?id=22553333 (accessed 31.08.2021). (In Russ., abstract in Eng.)

8. Kaniuk G.I., Babenko I.A., Kozlova M.L., et al. Experimental Study to Efficiency Automated Energysave Management Circulation Pump of Power Station. Energosberezhenie. Energetika. Energoaudit = Energy Saving. Power Engineering. Energy Audit. 2016; (2):20-32. Available at: https://clck.ru/amCh3 (accessed 30.08.2021). (In Russ., abstract in Eng.)

9. Yurchenko I.F., Trunin V.V. Decision Support System for Water Allocation Based on Web Technologies. Nauchnyy zhurnal Rossiyskogo NII problem melioratsii = Scientific Journal of the Russian Research Institute of Land Reclamation Problems. 2014; (2):87-97. Available at: http://www.rosniipm-sm.ru/article?n=716 (accessed 30.08.2021). (In Russ., abstract in Eng.)

10. Yurchenko I.F. [Water-Saving Technology for Planning Technical Operation of Land Reclamation Systems]. Vodnoe khozyaystvo Rossii: problemy, tekhnologii, upravlenie = Water Sector of Russia: Problems, Technologies, Management. 2016; (5):76-88. (In Russ.) doi: https://doi.org/10.35567/1999-4508-2016-5-6

11. Yang S.-H. Internet-Based Control System Architecture Design. In: Yang S.-H. (ed.). Internet-Based Control Systems. Advances in Industrial Control. London: Springer; 2011. p. 17-27. (In Eng.) doi: https://doi.org/10.1007/978-1-84996-359-6_3

12. Zakharyan A.V., Pomerko E.S., Negodova A.V., et al. Digital Economy and Prospects of Its Growth for 2018-2020. Ekonomika i predprinimatelstvo = Journal of Economy and Entrepreneurship. 2018; (5):169-173. Available at: https://elibrary.ru/item.asp?id=35001597 (accessed 31.08.2021). (In Russ., abstract in Eng.)

13. Shepherd M., Turner J.A., Small B., Wheeler D. Priorities for Science to Overcome Hurdles Thwarting the Full Promise of the ‘Digital Agriculture’ Revolution. Journal of the Science of Food and Agriculture. 2018; 100(14):5083-5092. (In Eng.) doi: https://doi.org/10.1002/jsfa.9346

14. Luo Y. A General Framework of Digitization Risks in International Business. Journal of International Business Studies. 2021. (In Eng.) doi: https://doi.org/10.1057/s41267-021-00448-9

15. Shibata S. Digitalization or Flexibilization? The Changing Role of Technology in the Political Economy of Japan. Review of International Political Economy. 2021. (In Eng.) doi: https://doi.org/10.1080/09692290.2021.1935294

16. Ognivtsev S.B. The Digitalization of the Economy and the Economy of Digitalization in Agriculture. Mezhdunarodnyy selskokhozyaystvennyy zhurnal = International Agricultural Journal. 2019; (2):77-80. (In Russ., abstract in Eng.) doi: https://doi.org/10.24411/2587-6740-2019-12034

17. Kumari R., Devadas V. Input-Output Analysis for Rural Industrial Development of Patna Region. Journal of Regional Development and Planning. 2014; 3(2):37-50. Available at: URL: https://econpapers.repec.org/article/risjrdpin/0031.htm (accessed 31.08.2021). (In Eng.)

18. Adesta E.Yu.T., Agusman D., Avicenna A. Internet of Things (IoT) in Agriculture Industries. Indonesian Journal of Electrical Engineering and Informatics. 2017; 5(4):376-382. (In Eng.) doi: https://doi.org/10.52549/ijeei.v5i4.373

19. Bandurin M.A., Yurchenko I.F., Volosukhin V.A., et al. The Efficiency of Impervious Protection of Hydraulic Structures of Irrigation Systems. In: International Scientific and Practical Conference “AgroSMART – Smart Solutions for Agriculture” (AgroSMART 2018). Vol. 151. Tyumen: Atlantis Press; 2018. p. 56-61. (In Eng.) doi: https://doi.org/10.2991/agrosmart-18.2018.11

 

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