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Документ Aerogeodesis monitoring of potential areas of spontaneous combustion of the forest(NTU "KhPI", 2017) Butenko, Olga; Gorelik, Stanislav; Gusakov, Dmytro; Buravchenko, E.The subject matterof the article is method for detecting potential zones of forest tracts spontaneous combustion using remote sensing data of the Earth. Aim of the article is to show how to increase the speed of decision-making to prevent negative consequences caused by spontaneous combustion of forest areas without a source of fire brought in from outside. Theobject of the research is a comprehensive analysis of the aerogeodesic monitoring data and contact measurements to identify and localize on the satellite images areas with high fire potential in the presence of a fire source directly in the territory of a possible fire. The methodsused are the positions of general physics and higher geodesy, the basics of digital image processing and thematic interpretation. Results of research. The main factors affecting the process of autoignition of forest tracts are analyzed. A method of aerogeodetic monitoring, which is based on a map of thunderstorm activity, is presented. Method is based on remote observations of thunderstorms. At the same time, the map reflectsthe position of active thunderstorm cells in space and the projection of their coordinates on the geodetic map of the forest and is also a route for the purposeful search and elimination of local sources of fire. In order to be able to make quick decisions related to the prevention of negative consequences, an approach is used in which thunder cells are diagnosedfor the purpose of assessing fire hazard by their ability to activate the process of origin of local sources of fire. In this case, we consider such controlled parameters as – the intensity of the electric field of the thunderstorm cell and the coordinates of its spatial position with respect to the forest area. Conclusion: to identify the origination of local sources of fire in the localization of possible autoignition zones, a relationship of thunderstorm clouds with the formation of the CCD wasestablished. Aerogeodesic monitoring of the CCD is thebasis for the operative estimates obtaining of the current object state of observation and prediction of the fire hazard level. The negative impact of forest fires on climate change, both local and global, is quite significant. Insufficient knowledge of this aspect requires further collection of material and its analysis, together with little-known "indirect" factors that cause spontaneous combustion of forest tracts and their individual sites.