Article

Received 10.01.2022

Revised 14.05.2022

Accepted 14.06.2022

Retrieved from Iss. 111, 2022

Pages 99 -105

Dovgopolyuk, L., Ignatov, S., & Neizvestna, N. (2022). MODERN PROGRAMS FOR PROCESSING DATA OF GEODESIC DIMENSIONS. Automobile Roads and Road Construction, (111), 99-105. https://doi.org/10.33744/0365-8171-2022-111-099-105

MODERN PROGRAMS FOR PROCESSING DATA OF GEODESIC DIMENSIONS

Lyudmyla Dovgopolyuk Serhiy Ignatov Natalia Neizvestna

Modern software used for processing field geodetic surveys was studied. Every year, geodetic production faces new tasks that require a quick and correct solution. The modern level of automation of geodetic work is characterized by the widespread distribution of electronic total stations and satellite receivers, digital aerial photography complexes, field portable computers, as well as multifunctional software packages. This requires the use of new technologies and an automated information processing system, which includes the availability of a software complex for processing field measurement materials, means of automated data entry and graphical information, programs for processing graphics and automated drawing, devices for outputting graphic and textual information. The software for processing the received data of geodetic measurements should be such that the most complex tasks are performed, and at the same time it is easy to use. The development of software tools for processing geodetic measurements will help to reduce the time for camera data processing. The article evaluates the software in terms of the possibility of their practical implementation in the field of geodesy, as well as in terms of accessibility, comprehensibility and the presence of additional functions. An analysis of the functionality of the most widespread in Ukraine modern software complexes for processing the results of ground surveying, such as: CADdy, FieldWorks, Topograd, Topocad, and CREDO, designed for processing the results of geodetic measurements and designing the construction, reconstruction, repair of highways and transport interchanges, was carried out. including public roads, city streets and roads of all technical categories. Based on the analysis of the functionality of modern software complexes designed to process the results of geodetic measurements and the design, reconstruction and capital repair of highways, appropriate conclusions were formed

geodetic research, geodetic data processing, error detection, computer programs, software
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https://doi.org/10.33744/0365-8171-2022-111-099-105