Features of use of agricultural drones in crop production technologies
Keywords:
agricultural drone, technology, machine use, methodAbstract
The article presents a generalization of the production cycle regarding the features of the machine use of agricultural drones in crop production technologies. Applied methods and initial data of agricultural drone technologies in agriculture have been developed taking into account the diversity of technological operations. In the course of the research, fourteen tasks are presented that modern agricultural drone technologies solve. The author outlines a six-level full cycle of agricultural drone monitoring of crops. At the same time, accounting for the initial data allows for the process of forming a visualization of field surveys from agricultural drones. The author recreates the features of video and photography from a height, the functionality of thermal imaging cameras of agricultural drones for agriculture, which allows monitoring to be brought as close as possible to the real cycle of crop production.
References
1. Silver B., Mazur M., Wiśniewski A., Babicz A. (2017). Welcome to the era of drone-powered solutions: a valuable source of new revenue streams for telecoms operators: Communications Review. URL: https://www.pwc.com/gx/en/communications/pdf/ communicationsreview-july-2017.pdf 28.01.2023
2. Lysenko V., Bolbot I., Romasevych Y., Loveykin V., VoytiukV. (2018). Algorithms of Robotic Electrotechnical Complex Control inAgricultural Production. In Control Systems: Theory and Applications. pp. 271–289.
3. Miller J. O., Adkins J. (2018). Types of drones for field crop production. University of Delaware: Fact sheets and publications. URL: https://www.udel.edu/academics/ colleges/canr/cooperative-extension/fact-sheets/types-of-drones-for-field-crop-production 15.01.2023.
4. Rogovskii I., Titova L., Sivak I., Berezova L., Vyhovskyi A. (2022). Technological effectiveness of tillage unit with working bodies of parquet type in technologies of cultivation of grain crops. Engineering for Rural Development. Vol. 21. P. 884–890. https://doi.org/10.22616/ERDev.2022.21.TF279.
5. Rogovskii I.L. (2021). Models of formation of engineering management alternatives in methods of increasing grain production in agricultural enterprises. Machinery and Energetics. Vol. 12(1). P. 137–146.
6. Rogovskii I.L. (2021). Resource of removal expenses for strong agricultural period of volume of operations. Machinery and Energetics. Vol. 12. Issue 2. P. 123–131. https://doi.org/10.31548/machenergy2021.02.123.
7. Rogovskii I.L. (2021). Influence of operating failure of agricultural machines on efficiency of their machine use. Machinery and Energetics. Vol. 12(3). P. 157–166.
8. Rogovskii I.L. (2021). Analyticity of complex criteria for evaluation of grain production in agricultural enterprises intensification of engineering management. Machinery and Energetics. Vol. 12(4). P. 129–138.
9. Rogovskii I.L., Titova L.L., Trokhaniak V.I., Borak K.V., Lavrinenko O.T., Bannyi O.O. (2021). Research on a grain cultiseeder for subsoil-broadcast sowing. INMATEH. Agricultural Engineering. Bucharest. Vol. 63. No 1. P. 385−396. https://doi.org/10.35633/INMATEH-63-39.
10. Kuzmich I.M., Rogovskii I.L., Titova L.L., Nadtochiy O.V. (2021). Research of passage capacity of combine harvesters depending on agrobiological state of bread mass. IOP Conference Series: Earth and Environmental Science. Vol. 677. P. 052002. https://doi.org/10.1088/1755-1315/677/5/052002.
