Purpose: formation of priority directions and effective measures for developing modern digitalization in land reclamation, corresponding to a high-tech, sustainable, environmentally safe domestic crop production system.
Materials and methods. The object of research is the priority areas and activities of modern digitalization of production and the social sphere of the economy. The subject is successful digitalization solutions in the field of land reclamation. As research materials, the conceptual provisions of the departmental project and the Digital Agriculture platform of the Ministry of Agriculture of Russia, information and data obtained from open sources were used. The fundamental research methods are methods of comparative and systematic analysis of the collected and systematized materials on the research theme.
Results. The analysis of the state of the domestic reclamation water management complex was carried out, and the expediency of its digitalization based on platform approaches was revealed. The key directions of land reclamation digitalization are proposed, including the processes of design, construction, operation of land reclamation facilities and the processes of state management of land reclamation activities, which should be based on the departmental platform “Digital Land Reclamation” of the Ministry of Agriculture of Russia. The functional structure of the digital platform project was formed and characterized as part of the software and hardware modules: “Efficient reclamation and water management complex”, “Intelligent reclamation system”, “Smart reclamation field”, “Safe reclamation”, “Competitive enterprise” and “Professional melioration”.
Conclusion. Updating the digitalization of Russian agricultural production will require the consolidation of all participants in digital solutions in the field of land reclamation in terms of preparing a detailed, evidence-based concept for the development of the Digital Land Reclamation platform, coordinated with the departmental project “Digital Agriculture”.
doi: 10.31774/2712-9357-2022-12-2-84-100
priorities, digitalization, reclamation water management complex, areas, activities, platform, software and hardware modules
Yurchenko I. F. Priority areas and activities of modern digitalization in land reclamation. Land Reclamation and Hydraulic Engineering. 2022;12(2):84–100. (In Russ.). https://doi.org/10.31774/2712-9357-2022-12-2-84-100.
1. Zakharyan A.V., Pomerko E.S., Negodova A.V., Davydenko M.A., 2018. Tsifrovaya ekonomika i perspektivy ee rosta na 2018–2020 gody [Digital economy and prospects of its growth for 2018–2020]. Ekonomika i predprinimatel'stvo [Economics and Entrepreneurship], no. 5(94), pp. 169-173. (In Russian).
2. Kadomtseva M.E., Neyfeld V.V., 2021. Regional'nye osobennosti ispol'zovaniya tekhnologiy tochnogo zemledeliya v sel'skom khozyaystve [Regional features of the use of precision farming technologies in agriculture]. Problemy razvitiya territorii [Problems of Territory’s Development], vol. 25, no. 2, pp. 73-89, DOI: 10.15838/ptd.2021.2.112.5. (In Russian).
3. Zaitsev S.V., Alibekova A.B., Korotenkova A.D., Shishkina S.S., 2022. Diagnostika riskov v deyatel'nosti organizatsiy sel'skogo khozyaystva [Risk diagnosis in the activities of agricultural organizations]. Finansy i kredit [Finance and Credit], vol. 28, no. 1(817), pp. 105-123, DOI: 10.24891/fc.28.1.105. (In Russian).
4. Solodunov A.A., Bandurin M.A., 2019. Voprosy bezopasnoy ekspluatatsii vnutrikhozyaystvennoy seti risovykh orositel'nykh sistem [Issues of safe operation of the on-farm network of rice irrigation systems]. Nauchnoe obespechenye agropromyshlennogo kompleksa: sbornik tezisov po materialam Vserossiyskoy (nats.) konferentsii [Scientific Support of the Agro-industrial Complex: coll. of abstracts of proceedings of the All-Russian National Conference]. Krasnodar, KubGAU named after I.T. Trubilin, pp. 492-493. (In Russian).
5. Yurchenko I.F., 2017. Planovo-predupreditel'nye meropriyatiya povysheniya nadezhnosti meliorativnykh ob"ektov [Planned preventive measures to improve the reliability of reclamation facilities]. Prirodoobustroystvo [Environmental Engineering], no. 1, pp. 73-79. (In Russian).
6. Aleksandrovskaya L.A., 2020. Razvitie protsessov tsifrovizatsii v meliorativnoy sfere: tendentsii i perspektivy [Development of digitalization processes in the land reclamation sector: trends and prospects]. Vestnik Rostovskogo gosudarstvennogo ekonomicheskogo universiteta (RINKH) [Bulletin of Rostov State University of Economics (RINH)], no. 4(72), pp. 103-110. (In Russian).
7. Tsifrovaya transformatsiya sel'skogo khozyaystva Rossii: ofits. izd. [Digital Transformation of Russian Agriculture: official edition]. Moscow, Rosinformagrotekh Publ., 2019, 80 p. (In Russian).
8. Shepon A., Henriksson P.J.G., Wu T., 2018. Conceptualizing a Sustainable Food System in an Automated World: Toward a “Eudaimonian” Future. Frontiers in Nutrition, vol. 5, 00104, https:doi.org/10.3389/fnut.2018.00104.
9. Smith M.J., 2020. Getting value from artificial intelligence in agriculture. Animal Production Science, vol. 60, no. 1, pp. 46-54, https:doi.org/10.1071/AN18522.
10. Wolfert S., Ge L., Verdouw C., Bogaardt M.-J., 2017. Big Data in Smart Farming – A review. Agricultural Systems, vol. 153, pp. 69-80, https:doi.org/10.1016/j.agsy.2017.01.023.
11. Shepherd M., Turner J., Small B., Wheeler D., 2018. Priorities for science to overcome hurdles thwarting the full promise of the “digital agriculture” revolution. Journal of the Science of Food and Agriculture, vol. 100, iss. 14, pp. 5083-5092, https:doi.org/10.1002/jsfa.9346.
12. Rotz S., Duncan E., Small M., Botschner J., Dara R., Mosby I., Reed M., Fraser E.D.G., 2019. The politics of digital agricultural technologies: A preliminary review. Sociologia Ruralis, vol. 59, no. 2, pp. 203-229, https:doi.org/10.1111/soru.12233.
13. Klerkx L., Jakku E., Labarthe P., 2019. A review of social science on digital agriculture, smart farming and agriculture 4.0: New contributions and a future research agenda. NJAS – Wageningen Journal of Life Sciences, vol. 90-91, 100315, https:doi.org/10.1016/j.njas.2019.100315.
14. Kireycheva L.V., Yurchenko I.F., Yashin V.M., 2014. Modeli i informatsionnye tekhnologii upravleniya vodopol'zovaniem na meliorativnykh sistemakh, obespechivayu-shchie blagopriyatnyy meliorativnyy rezhim [Models and information technologies for water management in reclamation systems that provide a favorable reclamation regime]. Melioratsiya i vodnoe khozyaystvo [Irrigation and Water Management], no. 5-6, pp. 50-55. (In Russian).
15. Bandurina I.P., Salnikova I.I., Bandurin M.A., 2019. Opredelenie urovnya vliyaniya riskov na effektivnost' investitsionnykh proektov v APK [Determining the level of risk impact on the investment project efficiency in the agro-industrial complex]. Vestnik Yuzhno-Rossiyskogo gosudarstvennogo tekhnicheskogo universiteta (NPI). Seriya: Sotsial'no-ekonomicheskie nauki [Bulletin of the South Russian State Technical University (NPI). Series: Social and Economic Sciences], no. 6, pp. 19-26, DOI: 10.17213/2075-2067-2019-6-19-26. (In Russian).
16. Ognivtsev S.B., 2019. Tsifrovizatsiya ekonomiki i ekonomika tsifrovizatsii [The digitalization of the economy and the economy of digitalization]. Mezhdunarodnyy sel'skokhozyaystvennyy zhurnal [International Agricultural Journal], no. 2(368), pp. 77-80. (In Russian).
17. Yurchenko I.F., Trunin V.V., 2013. Metodologiya sozdaniya informatsionnoy tekh-nologii operativnogo upravleniya vodoraspredeleniem na mezhkhozyaystvennykh orosi-tel'nykh sistemakh [Methodology for creating information technology of operational management of water distribution in inter-farm irrigation systems]. Prirodoobustroystvo [Environmental Engineering], no. 4, pp. 10-14. (In Russian).
18. Truflyak E.V., 2018. Ispol'zovanie elementov tochnogo sel'skogo khozyaystva v Ro-sii [The Use of Elements of Precision Agriculture in Russia]. Krasnodar, KubGAU, 26 p. (In Russian).
19. Bandurin M.A., Yurchenko I.F., Bandurina I.P., 2019. Computer technology to assess the capacity reserve of the irrigation facilities of the agro-industrial complex. International Multi-Conference on Industrial Engineering and Modern Technologies, FarEastCon. Vladivostok, Institute of Electrical and Electronics Engineers Inc., 8933970, DOI: 10.1109/FarEastCon.2019.8933970.
20. Borodychev V.V., Lytov M.N., 2016. Geopozitsionnyy sintez monitoringovykh dannykh i vozmozhnosti ikh ispol'zovaniya v rezhime real'nogo vremeni [Geopositional synthesis of data monitoring and the possibility of their use in real time]. Izvestiya Nizhnevolzhskogo agrouniversitetskogo kompleksa: nauka i vysshee professional'noe obrazovanie [Proceedings of Nizhnevolzhsky Agrouniversity Complex: Science and Higher Professional Education], no. 1(41), pp. 168-177. (In Russian).
21. Vartanova M.L., Drobot E.V., 2019. Regulirovanie tsifrovykh finansovykh aktivov i primenenie blok-cheyn tekhnologiy v sel'skom khozyaystve [Regulation of digital financial assets and the use of block-chain technologies in agriculture]. Kreativnaya ekonomika [Creative Economy], vol. 13, no. 1, pp. 37-48, DOI: 10.18334/ce.13.1.39778. (In Russian).
22. Kanyuk G.I., Babenko I.A., Kozlova M.L., Suk I.V., Mezerya A.Yu., 2016. Ob obshchikh nauchnykh podkhodakh k sozdaniyu unifitsirovannykh pretsizionnykh energosberegayushchikh ASU TP [On general scientific approaches to the creation of unified precision energy-saving process control systems]. Energosberezhenie. Energetika. Energoaudit [Energy Saving. Energy. Energy Audit], no. 2(145), pp. 20-32. (In Russian).
23. Shchedrin V.N., Vasiliev S.M., Slabunov V.V., Slabunova A.V., Zavalin A.A., 2020. Podkhody k formirovaniyu informatsionnoy sistemy “Tsifrovaya melioratsiya” [Approaches to the information system “Digital land reclamation”]. Informatsionnye tekhnologii i vychislitel'nye sistemy [Information Technologies and Computer Systems], no. 1, pp. 53-64, https:doi.org/10.14357/20718632200106. (In Russian).
24. Yurchenko I.F., 2021. [Prospects for Internet of Things technologies in agricultural production]. Nauchnyy Zhurnal Rossiyskogo NII Problem Melioratsii, vol. 11, no. 1, pp. 67-80, available: http:www.rosniipm-sm.ru/article?n=1178 [accessed 01.03.2022], DOI: 10.31774/2222-1816-2021-11-1-67-80. (In Russian).
25. Luo Y., 2022. A general framework of digitization risks in international business. Journal of International Business Studies, 5, pp. 344-361, https:doi.org/10.1057/s41267-021-00448-9.
26. Adesta E.Y.T., Agusman D., Avicenna A., 2017. Internet of Things (IoT) in Agriculture Industries. Indonesian Journal of Electrical Engineering and Informatics (IJEEI), vol. 5, no. 4, pp. 376-382, DOI: 10.11591/ijeei.v5i4.373.
