UNMANNED AERIAL VEHICLES IN AGRICULTURAL RISK INSURANCE
Abstract
This study analyzes the need for the use of drones in agricultural production and the use of information for agricultural risk insurance. It is proven that drones in agriculture can be used to carry out the necessary range of activities to reduce the load on the soil, spray agricultural plants, and collect information for further use in farms. It is substantiated that insurance of agricultural risks requires information support for concluding an insurance contract and determining the amount of losses upon occurrence of an insured event. Drones in agriculture can perform the following operations: aerial photography, video recording, 3D modeling, thermal imaging, laser scanning, spraying, planting seeds, scaring away animals, etc. Drones can be used in analyzing soil quality for land quality insurance. The article presents a classification of insurance risks of agricultural production, which helps to determine the insurance risks and the possibility of their insurance. We propose a mechanism for insuring the risks of agricultural plants and the possibility of determining the amount of damage compensation using information from drones. The use of drones and associated analytics has great potential to support and enable operational decision-making despite external factors and weather conditions.
References
Takehiro K., Hideaki S., Yoshihide S. (2020). Sky Monitoring System for Flying Object Detection Using 4K Resolution Camera. NLM or the National Institutes of Health. DOI: https://doi.org/10.3390/s20247071
Krasnoperova E. (2020). Improving the efficiency of resource potential use is an urgent task of the agro-industrial complex. E3S Web of Conferences 176, 05003. IDSISA. Available at: https://www.e3s-conferences.org/articles/e3sconf/pdf/2020/36/e3sconf_idsisa2020_05003.pdf
Khromushyna L., Konieva I., Skrypnyk Yu., Shalyhina I. (2018). Formation of Resource Potential of Agrarian Enterprises on the Principles of Ecological and Economic Security. Journal of Environmental Management and Tourism, vol. 9. is, 5, pp. 979-986.
Kaletnik G., Lutkovska S. (2020). Strategic Priorities of the System Modernization Environmental Safety under Sustainable Development. Journal of Environmental Management and Tourism, vol. 11, no 5, pp. 1124–1131. DOI: https://doi.org/10.14505//jemt.v11.5(45).10
Brychko A., Lukash S., Maslak N., and Kovalova O. (2018). Bioeconomy as Innovative Component of the Environmental Management. Journal of Environmental Management and Tourism, vol. ix, spring, no. 1(25), pp. 28–33. DOI: https://doi.org/10.14505//jemt.v9.1(25).04
Stutsel B., Johansen K., Malbéteau J. M., McCabe M. F. (2021). Detecting plant stress using thermal and optical imagery from an unoccupied aerial vehicle. Frontiers in Plant Science. https://doi.org/10.3389/fpls.2021.734944
Department of transportation Federal Aviation Administration 14 CFR Parts 11, 21, 43, and 107 [Docket No.: FAA-2018-1087; Amdt. Nos. 11-64, 21-105, 43-51, 107-8] RIN 2120–AK85 Operation of Small Unmanned Aircraft Systems Over People AGENCY: Federal Aviation Administration (FAA) and Office of the Secretary of Transportation (OST), Department of Transportation (DOT). Available at: https://www.faa.gov/sites/faa.gov/files/2021-08/OOP_Final%20Rule.pdf
Borisova V., Samohkina I., Rybina L., Shumkova V. (2020). Motivational Management of the Environmentally Sound Development of Agricultural Enterprise in Ukraine. International Journal of Ecology & Development. vol. 35, is. 2, pp. 102–120. Available at: http://www.ceser.in/ceserp/index.php/ijed/article/view/6456
Tielkiniena T., Gryshova I., Tatyana S., Hanna D., Alisa S. (2020). Lobby legalization – Legal instrument for ensuring state subsidies to leaders of agricultural producers. Journal of Advanced Research in Dynamical and Control Systems, no. 12 (7 Special Issue), рp. 2340–2345.
Schusser S., and Bostedt G. (2019). Green behavioral (in)consistencies: are pro-environmental behaviors in different domains substitutes or complements? Environmental Economics, vol. 10, is. 1, pp. 23–47.
Semenda D., Semenda O. (2018). Assessment of ecological and economic efficiency of agricultural lands preservation. Environmental Economics, vol. 9, is. 1, pp. 47–56.
Shpak N., Kulyniak I., Gvozd M., Vveinhardt J., & Horbal N. (2021). Formulation of development strategies for regional agricultural resource potential: The Ukrainian case. Resources, no. 10(6). DOI: https://doi.org/10.3390/resources10060057
Pirozhkov S. I., Khvesyk M. A. (2017). Economic assessment of natural wealth of Ukraine. State Institution “Institute of Environmental Economics and Sustainable Development of NAS of Ukraine”. P. 396.
González-Ruiz J. D., Botero-Botero S., and Duque-Grisales E. (2018). Financial Eco-Innovation as a Mechanism for Fostering the Development of Sustainable Infrastructure Systems. Sustainability, no. 10. DOI: https://doi.org/10.3390/su10124463
Baliyants K. M., Dokholyan S. V., Hidirova S. Z., Zhamolatova Z. N. (2019). The Resource Potential of the Agro-industrial Complex of the North-Caucasian Federal District as a Factor of Innovative Development of the Macro-region. International Journal of Economics and Business Administration, vol. VII, Special Issue 1, pp. 339-347. Available at: https://www.um.edu.mt/library/oar/bitstream/123456789/45966/1/The_resource_potential_of_the_agro_industrial_complex_of_the_north_caucasian_federal_district.pdf
Skryl T. V., Osipov V. S., Vorozheikina T. M. (2019). On The Way to Ecological Agriculture: Decision-Making in Agrarian State Policy. International Journal of Ecology & Development, vol. 34, is.4, pp. 26–34.
Borisova V., Samohkina I., Rybina L., Shumkova O. (2020). Financial Mechanism for Managing the Environmental Innovation Development of the Economy in Ukraine. Journal of Environmental Management and Tourism, vol. 11, no. 7 (47), pp. 1617-1633. Available at: https://journals.aserspublishing.eu/jemt/article/view/5714
Borisova V., Samohkina I., Rybina L., Kobzhev O. (2019). Formation of the Environmental Insurance System to improve the environmental safety of the state: the case of Ukraine. International Journal of Ecology & Development, vol. 34, is. 1, pp. 127–140. Available at: http://www.ceser.in/ceserp/index.php/ijed/article/view/5988
Ma X., Gryshova I., Khaustova V., Bobrovnyk D., Khaustov M. (2022). Assessment of the Impact of Scientific and Technical Activities on the Economic Growth of World Countries. Sustainability, no. 14 (21).
State Statistics Service of Ukraine. Available at: http://www.ukrstat.gov.ua/
Petrunenko Ia., Pohrishcuk B., Abramova M., Vlasenko Yu., Halkin V. (2021). Development of the Agro-Industrial Complex for Improving the Economic Security of the State. IJCSNS International Journal of Computer Science and Network Security, vol. 21, no. 3. Available at: http://dspace.onua.edu.ua/bitstream/handle/11300/16100/Development%20of%20the%20Agro-Industrial%20Complex%20for%20Improving%20the%20Economic%20Security%20of%20the%20State.pdf?sequence=1&isAllowed=y
Cao W., Zhang Y., and Peng Qian P. (2019). The Effect of Innovation-Driven Strategy on Green Economic Development in China – An Empirical Study of Smart Citie. Int. J. Environ Res. Public Health, no. 16(9). DOI: https://doi.org/10.3390/ijerph16091520
