Abstract
The purpose of the study is to select an effective methods and equipment for observing deformations in dangerous areas of the terrain, such as areas that are undermined by underground mining. It is known that the topical task of the mine surveying service is to improve remote sensing methods for the state of movement zones with craters, dips, cracks. The research methodology is based on the results of the performed analysis of methods for observing deformations using modern devices and technologies, and experimental work using the developed methodology, which provides for the combined use of digital methods and GPS technologies. Experimental work was carried out at the facilities of the Ordzhonikidze mine using various remote sensing methods, including those developed by the authors. The research used a design consisting of a digital camera and a GPS receiver. The performed analysis of the obtained survey results, using the proposed design of two devices, has shown its effectiveness in remote methods of observing the objects deformations located in areas undermined by mining operations. The scientific novelty of the results obtained lies in the methods development for remote observation of deformations of the ground's surface and objects, based on the structure use from a digital camera and a GPS receiver. This method was developed to increase the efficiency of performing research on objects deformations located in places that are dangerous for finding a person. The efficiency of using terrestrial digital stereo survey when the coordinates of the photographing points are determined with the help of GPS has been proved. The practical significance of the study lies in increasing work efficiency the on monitoring deformations of the earth's surface, buildings and structures located in areas dangerous for field work by traditional methods, which are performed using leveling and measuring the distances between the benchmarks of profile lines, which are usually used on areas undermined by underground mining. The use of terrestrial digital stereo photography with the coordination of photographing stations using GPS allows remote determination of the spatial position of the observed points with the required accuracy. Key words: ground stereoscopic survey, collapse zone, digital camera, GPS.
Highlights
When developing a mineral, a large range of works is envisaged, which includes the study of the properties of the mineral, the study of the stress-strain state of the field massif and other measures that ensure the most complete and efficient extraction of the mineral with the least losses for the environment [1,2,3,4,5,6,7,8]
Many works are devoted to the introduction of photogrammetric methods of shooting using digital cameras and unmanned aerial vehicles (UAV) [17,18,19]
A significant number of programs and software complexes have been developed for the widespread use of unmanned aerial vehicles and digital imaging technologies
Summary
A large range of works is envisaged, which includes the study of the properties of the mineral, the study of the stress-strain state of the field massif and other measures that ensure the most complete and efficient extraction of the mineral with the least losses for the environment [1,2,3,4,5,6,7,8]. The mine surveying service provides all the work on the extraction of minerals, develops measures for the rational use of subsoil and land, and performs work on the observation of the rocks movement and the ground's surface [13,14,15,16]. Many works are devoted to the introduction of photogrammetric methods of shooting using digital cameras and unmanned aerial vehicles (UAV) [17,18,19]. These methods are effective when observing the state of objects located in areas where it is dangerous for finding a person. This work is devoted to the study of these questions
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