Determination of geometric characteristics of explosive eruptions on agricultural lands using remote methods

S. Horelyk, A. Nechausov, O. Yankin
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Abstract

The armed aggression of the Russian Federation against Ukraine led to significant damage to the fertile soil layer in the temporarily occupied territories. Damage assessment for agricultural lands damaged by ravines requires determination of their geometric characteristics. There are two groups of methods for finding the area and volume of pits. The first group is contact geodetic research, which allows you to accurately determine the parameters of craters, but it is impossible to apply them due to the explosiveness of the territory and the large number of damaged areas. Other methods are related to the determination of geometric characteristics based on the data of remote sensing of the Earth (RS). They make it possible to quickly identify the location of explosive holes, but in wartime they are not fully available. Therefore, the complex use of remote sensing data and contact research will allow to quickly and safely determine the location and geometric characteristics of explosive craters.The purpose of the study is to develop a methodology for determining the geometric characteristics of explosive craters due to the complex use of contact and remote geodetic data in the conditions of military operations. The main tasks of the research: analysis of existing methods for determining the geometric characteristics of explosive craters; determination of the relationship between the force of the explosion and the geometric characteristics of the eruption; development of a methodology for determining damage to the fertile layer of agricultural lands from military operations using Geoinformation technologies (GIS technologies); practical implementation of the developed methodology on the example of a test plot of agricultural land.The developed technique consists in the use of geo-information technologies and data of RS to determine the location and area of explosive craters. Based on the existing statistical relationships between the TNT equivalent of the explosion and the geometric characteristics, new functions of the relationship between the radius of the rupture and the volume, depth, and TNT equivalent of the explosion were obtained.Cartographic models of the distribution of craters by volume, the density of explosive craters and their distribution by radius were built in the ArcGIS geoinformation software.The constructed geomodels made it possible to assess the degree of damage to agricultural soils and to determine the most explosive areas. Based on the obtained data, it was established that there is no correlation between the density of the holes and their radius in the presence of holes larger than 25 m.Assessment of damage to agricultural land as a result of military operations in Ukraine requires the use of images from UAVs and satellites with ultra-high spatial resolution. In the future, it is necessary to check the adequacy of the developed methodology by field geodetic methods.
用遥测法测定农业用地上爆发的几何特征
俄罗斯联邦对乌克兰的武装侵略对临时被占领领土的肥沃土壤造成了重大破坏。对沟壑破坏的农田进行损害评估,需要确定沟壑的几何特征。有两组方法来寻找坑的面积和体积。第一组是接触大地测量研究,它可以让你准确地确定陨石坑的参数,但由于领土的爆炸性和大量受损区域,它是不可能应用的。其他方法是根据地球遥感数据确定几何特征。它们使快速确定爆炸孔的位置成为可能,但在战时它们并不完全可用。因此,遥感数据和接触研究的复杂使用将允许快速和安全地确定爆炸性陨石坑的位置和几何特征。这项研究的目的是制定一种方法,以确定在军事行动条件下由于复杂地使用接触和远程大地测量数据而产生的爆炸性弹坑的几何特征。研究的主要任务是:分析现有的确定爆炸弹坑几何特征的方法;确定爆炸力与喷发几何特征之间的关系;制定一种方法,以确定利用地理信息技术(GIS技术)进行军事行动对农业土地肥沃层造成的损害;以某农业用地试验田为例,对所开发的方法进行了实际应用。所开发的技术包括利用地理信息技术和遥感数据来确定爆炸弹坑的位置和面积。基于已有的爆炸当量与几何特征之间的统计关系,得到了破裂半径与爆炸体积、深度和TNT当量之间关系的新函数。在ArcGIS地理信息软件中建立了弹坑按体积分布、爆炸弹坑密度分布和爆炸弹坑按半径分布的制图模型。建立的地质模型使评估农业土壤的破坏程度和确定最容易爆炸的地区成为可能。根据获得的数据,确定在大于25 m的孔存在时,孔的密度与半径之间没有相关性。评估乌克兰军事行动对农业用地造成的损害,需要使用超高空间分辨率的无人机和卫星图像。在未来,有必要通过实地测量方法来检查所开发的方法的充分性。
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