ГЕОДЕЗИЧНИЙ МОНІТОРИНГ ПРИ РОЗРОБЦІ КОМПЛЕКСНИХ ПЛАНІВ ПРОСТОРОВОГО РОЗВИТКУ

Abstract

The purpose of the article is the development and research of a system for determining complex plans of spatial location and geometric characteristics using geodetic methods. The tasks set in the work are solved by analyzing the database of satellite geodetic and inertial measurement systems. Method. The application of satellite technologies, which allow determining the spatial position in automatic mode (shooting in motion), is a priority direction for solving the tasks of increasing the safety and efficiency of geodetic work in full in accordance with the strategic direction of scientific and technical development. The results. Since the 1950s, an intensive process of electronicization and automation has been observed in geodesy. Electronicization in geodesy made it possible to improve the technologies of performing geodetic works, to achieve higher productivity while increasing the accuracy of measurements. In principle, these processes and problems were internal to topographic and geodetic production and did not affect users directly. The first product that differed from traditional topographic maps and plans was digital terrain models. The first such model of the Earth's surface was created in 1957 in the USA at the Massachusetts Institute of Technology. It was a model of the relief of the earth's surface and was intended for the design of highways, constructed objects by optimizing project solutions. With the development of electronic computers and data processing methods, new forms of presenting information about the earth's surface began to appear. Currently, the study and research of the natural environment is closely related to the use of geographic information systems and various types of geo-information resources: electronic digital maps and spatial databases, GIS services and many others. Geo-informational software complexes allow you to process a large volume of data obtained during various studies, as well as organize and regulate information that has a spatial reference. Various geographic information systems, such as 3D cartography and virtual reality, are described, which allows creating more visual and understandable representations of geographic information. Geovisualization and 3D modeling provide quick access to geodata. Scientific novelty. The joint use of satellite and inertial measurements for surveying is substantiated, a theoretical solution for data processing is performed, and a methodology for drawing up large-scale plans is proposed. The geodetic component of the development of complex plans has been updated. Practical significance. The obtained results can be used to develop complex spatial development plans with a geodetic component. In addition, the materials of the article can be used in geodetic and cartographic activities.