ANALYSIS AND GENERALIZATION OF REGULATORY SUPPORT FOR GEODESIC SUPPORT OF ROAD CONSTRUCTION OBJECTS
Array
Keywords:
highway, construction, geodetic support, national standard, artificial construction.Abstract
The transfer of the project to the site requires the performance of measurements and constructions with high accuracy. Changes in the technology of geodetic works related to the computerization of geodesy, the introduction into geodetic practice of electronic geodetic instruments and automated processing programs, require the introduction into production of both traditional methods of geodetic measurements and new technologies and methods of geodetic works. Despite the fact that geodetic works are an integral part of construction, in the regulations on surveys, design and construction of roads and man-made structures quite limited regulation of the content of work on the transfer of projects to the field, division work, executive surveys, geodetic quality control, accuracy requirements, etc.
Given the current state of regulatory and legal support for geodetic support of road construction sites, it is advisable to develop a national standard for the implementation of geodetic surveying and geodetic control in the construction of road construction sites. This standard will supplement the main provisions of regulations on the construction of roads and transport facilities.
With the growing volume of design, construction and overhaul of roads, it is necessary to standardize all stages of design and construction work, including those related to geodetic production.
The development of technologies and methods of geodetic works related to the computerization of geodesy requires the introduction into production of both traditional methods of geodetic measurements and new technologies and methods of geodetic works.
Based on the analysis and generalization of regulatory support for geodetic support of design and construction of roads and artificial structures, the need to develop a national standard for geodetic surveying and geodetic control in the construction of road construction as a supplement to the basic provisions of regulations on road construction and transport facilities.
References
2. Batrakova, A., Kuzmin, V. (2018). Engineering and geodetic monitoring and control in construction. Part I. Geodetic works in the construction of bridges. KhNAHU, Kharkiv. [in Ukrainian]
3. Ostrovsky, A.L. Moroz, O.I., Tartachinskaya, Z.R. Gerasimchuk, I.F. (2011). Geodesy. Part One Topography. View of Lviv polytechnics, Lviv. [in Ukrainian]
4. Karan, E.P. Irizarry, J. (2014). Digital modeling of construction site terrain using remotely sensed data and geographic information systems analyses. Journal of construction engineering and management, 140(3), 04013067-1 – 04013067-12.
5. Munoz-Salina, E.A. (2009). GIS-basedmethod to determine the volume of lahars: Popocatepetl volcano, Mexico. Geomorphology, 111(1), 61–69. DOI: https://doi.org/10.1016/j.geomorph.2008.09.028
6. Innovative technologies in the field of geodesy, land management and design (2021): monograph. KhNAHU, Kharkiv. [in Ukrainian]
7. Kuzmin, V. (2008). Engineering geodesy in the survey, design and construction of highways: Tutorial. KhNAHU, Kharkiv. [in Russian]
8. Beshr, A.A. (2015). Structural Deformation Monitoring and Analysis of Highway Bridge Using Accurate Geodetic Techniques. Engineering, 07(08), 488–498. DOI: http://dx.doi.org/10.4236/eng.2015.78045
9. Saleh, B., Al-Bayari, O. (2007). Geodetic monitoring of a landslide using conventional surveys and GPS techniques. Survey Review, 39 (305), 252–260. DOI: http://dx.doi.org/10.1179/175227007X197165
10. Kovalenko, L., Yemets, V. (2021). Engineering and geodesic works and executive survey installation of bridge structures. Municipal economy of cities, 1(161), 124–128. DOI: https://doi.org/10.33042/2522-1809-2021-1-161-124-128
11. Hofmann Wellenhof, B., Morit, H. (2005). Physical Geodesy. Wien New York.
12. Nadolinets, L., Levin, E. & Akhmedov, D. (2017). Surveying instruments and technology. Florida.
13. Baran, P. (2012). Engineering geodesy. PAT “VIPOL”, Kyiv. [in Ukrainian]
14. Bird, P. (2003). An updated digital model of plate boundaries. Geochemistry, Geophysics, Geosystems, 4(3). DOI: https://doi.org/10.1029/2001GC000252
15. Graham, R. & Koh, A. (2002). Digital Aerial Survey: Theory and Practice. Whittles Publishing, Scotland, UK.
16. Gavrilenko, D.Yu. (2013). Using cartographic web-services for presenting mine surveying and geodetic information. UkrNIMІ scientific works, 12, 356–365. [in Russian]
17. Golubkov, S.N. (2008). An automated system for analyzing the basic metric properties of a cartographic image. SPbGU Bulletin. Earth sciences, 4, 188–193. [in Russian]
18. Nesterenko, S.G., Radzinskaya, Y.B., Afanasyev, O.V., Frolov, V.O. (2019). Research of directions and technology of application of electronictopographic plans of the area. Scientific Notes of Taurida National V.I. Vernadsky University. Series: Technical Sciences, 30(69), No4, Part 1, 143–146. DOI: https://doi.org/10.32838/2663-5941/2019.4-1/25 [in Ukrainian]
19. Bondar, A.L., Zaiets, I.M., Kucher, O.V. (2001). Status and main directions of development of the state geodetic network of Ukraine. Bulletin of Geodesy and Cartography, 3. [in Ukrainian]
20. Ondrej, M. (2016). Optimization methods in geodetic networks. Conference Proceedings 16th International Multidisciplinary Scientific Geo Conference SGEM2016, June28–July6, Book 2, Vol. 2, 479–486.
Downloads
Published
How to Cite
Issue
Section
License
The authors who publish in this collection agree with the following terms:
• The authors reserve the right to authorship of their work and give the magazine the right to first publish this work under the terms of license CC BY-NC-ND 4.0 (with the Designation of Authorship - Non-Commercial - Without Derivatives 4.0 International), which allows others to freely distribute the published work with a mandatory reference to the authors of the original work and the first publication of the work in this magazine.
• Authors have the right to make independent extra-exclusive work agreements in the form in which they were published by this magazine (for example, posting work in an electronic repository of an institution or publishing as part of a monograph), provided that the link to the first publication of the work in this journal is maintained. .
• Journal policy allows and encourages the publication of manuscripts on the Internet (for example, in institutions' repositories or on personal websites), both before the publication of this manuscript and during its editorial work, as it contributes to the emergence of productive scientific discussion and positively affects the efficiency and dynamics of the citation of the published work (see The Effect of Open Access).
