Determination of state and oils i call for thanks safe little apparatus
Abstract
Abstract. To clarify the state of the crop and the formation of crop yield cartograms, it was proposed to use a vision system based on an unmanned aerial vehicle (UAV). The video information, which is accepted by the UAV's technical vision system, is transferred to the geographic information system (GIS) database. With the help of special mathematical and software, yield maps for each site are calculated and displayed on an electronic map of the area. It is shown that the use of vision systems on the basis of an unmanned aerial vehicle makes it possible to increase the efficiency of planning the routes of unmanned harvesting equipment (UНЕ), taking into account the features of the terrain and various obstacles in the way of UНЕ traffic. The possibilities of using special software for the production of the LDE - Land damage expert for determining the state and volumes of the crop on the basis of data obtained from an unmanned aerial vehicle are considered. The principles of using and processing navigation and visual information in solving the main tasks of planning the movement of harvesting equipment and the flight of an unmanned aerial vehicle are described.
Key words: unmanned harvesting equipment; system of technical vision; cartograms of productivity, geoinformation system, unmanned aerial vehicle, special
References
Ачасов А. Б., Ачасова А. О., Титенко Г. В., Селиверстов О. Ю., Седов А. О. Щодо використання БПЛА для оцінки стану посівів. Вісник Харківського національного університету імені В. Н. Каразіна, серія «Екологія». 2015. Вип. 13. С. 13–18.
Аніскевич Л. В., Адамчук В. І. Технології точного землеробства. Науковий вісник Національного аграрного університету. Київ. 2006. № 101. С. 8–27.
Рулев А. С., Канищев С. Н., Шинкаренко С. С. Анализ сезонной динамики NDVI естественной растительности Заволжья Волгоградской области. Современные проблемы дистанционного зондирования Земли из космоса. 2016. Т. 13. № 4. С. 113–123.
Лисенко В. П., Комарчук Д. С., Пасічник Н. А., Опришко О. О. Дистанційне зондування зернових культур для програмування врожаю. Київ. ТОВ «ЦП Компринт». 2017. 362 с.
Shadchina T. M. Elaboration of theoretical bases and methods of the remote sensing of winter wheat crops using the high resolution spectrometry. Manuscript. Thesis for Dr.Sci (Biol.) by speciality 03.00.12-Plant Physiology.-Institute of Plant Physiology and Genetics, National Academy of Sciences of Ukraine. Kyiv. 1999.
Шворов С. А., Чирченко Д. В. Метод планування робіт по збору врожаю безпілотними комбайнами. Енергетика і автоматика. 2017. № 1. С. 28–36. http://nbuv.gov.ua/UJRN/eia_2017_1_5.
Шворов С. А., Комарчук Д. С., Лукін В. Є., Чирченко Д. В. Метод планування маршрутів руху безпілотної збиральної техніки із застосуванням безпілотних літальних апаратів. Науковий вісник Національного університету біоресурсів і природокористування України. Серія: техніка та енергетика АПК. 2017. Вип. 261. С. 104–111.
References
Akashov, A. B., Akshova, A. O., Titenko, G. V., Seliverstov, O. Yu., Sedovб A. O. (2015). Concerning the use of UAVs for assessing the state of cropsю Use of UAVs to assess the state of crops. Vestnik VN KhNU Karazin, series "Ecology". Vip. 13, 13-18.
Aniskevich, L. V., Adamchuk, V. I. (2006). Precision Agriculture Technologies. Precise farming is a prospect for increasing yields. Scientific Bulletin of the National Agrarian University. No 101, 8-27.
Rulev, A. S, Kanishchev, Rulev, S. N., Shinkarenko, S. S. (2016). Analysis of the seasonal dynamics of NDVI in natural vegetation in the Transvolga region of the Volgograd Region. The analysis of seasonal dynamics of NDVI of natural vegetation is presented. Modern Problems of Earth Remote Sensing from Space. T. 13, No 4, 113-123.
Lisenko, V. P., Komarchuk, D. S., Pasichnik, N. A., Oprishko, O. O. (2017). Remote sensing of grain crops for harvest programming [monograph on remote sensing of grain crops for harvest programming] TOV "CP COMPRINT", 2017, 362.
Shadchina, T. M. (1999). Elaboration of theoretical bases and methods of the remote sensing of winter wheat crops using the high resolution spectrometry. Manuscript. Thesis for Dr.Sci (Biol.) by speciality 03.00.12-Plant Physiology.-Institute of Plant Physiology and Genetics. National Academy of Sciences of Ukraine, Kyiv.
Shvorov, S. A., Chirchenko, D. V. (2017). The method of planning for robots in the wild by virgin drone combines. A method for planning work for unmanned combines has been developed. Energy and automation. № 1, 28-36.
Shvorov, S. A. Komarchuk, D. S., Lukin, V. E., Chirchenko, D. V. (2017). The method of planning routes for unmanned harvest vehicles with the use of unmanned aerial vehicles. A method for planning work for unmanned combines. Scientific Bulletin of the National University of Bioresources and Natural Resources of Ukraine. Series: Engineering and Power Engineering of Agroindustrial Complex. Vol. 261. 104-111.
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