UDC: 
DOI: 
10.22389/0016-7126-2020-965-11-2-8
1 Kanashin N.V.
Year: 
№: 
965
Pages: 
2-8

Petersburg State Transport University

1, 
Abstract:
Geodetic monitoring buildings and structures is a complex and critical task nowadays, that requires high accuracy of measurements. Various methods are used to obtain it when working on various structures. The author describes the technology of using the side-point method to increase the accuracy of creating a surveying network when monitoring stadiums for the World Cup 2018. It is shown that the application of the aforementioned method together with the well-known one of dead distances measuring with total station does not significantly increase the complexity of the work, but provides high measurement precision even under adverse observation conditions. The features of adjusting such measurements are set out in the article. It is also experimentally established that using the side-points method enables increasing the accuracy of measurements by 1,5–2 times when constructing polygonometric traverses. The article may be useful for at specialists monitoring and geodetic control of structure deformation.
References: 
1.   Assur V. L., Kutuzov M. N., Muravin M. M. Vysshaya geodeziya. Izdanie 2-e, pererabotannoe i dopolnennoe. Moskva: Nedra, 1979, 398 p.
2.   Afonin D. A. Postroenie geodezicheskoi razbivochnoi seti, zakreplyaemoi plenochnymi otrazhatelyami. Zapiski gornogo instituta, 2012, Vol. 199, pp. 301–308.
3.   Afonin D.A., Bogomolova N.N., Bryn M.Ya. (2014) Preliminary calculation of the accuracy of geodetic measurements during the monitoring of deformation of gantry parts of transport tunnels. Geodezia i Kartografia, 75(1), pp. 7-11. (In Russian). DOI: 10.22389/0016-7126-2014-883-1-7-11.
4.   Bryn' M. Ya. Informatsionnaya sistema geodezicheskogo monitoringa deformatsii transportnykh sooruzhenii. Nauka i transport, 2013, no. 2, pp. 58–60.
5.   Golubev V. V., Markuze Yu. I. Teoriya matematicheskoi obrabotki geodezicheskikh izmerenii: Ucheb. posobie dlya vuzov. Moskva: Akademicheskii proekt, 2010, 247 p.
6.   Kanashin N. V. Geodezicheskii monitoring stroitel'stva stadiona «Spartak» v g. Moskve. Geoprofi, 2014, no. 3, pp. 8–11.
7.   Kougiya V.A. Izbrannye trudy: Monografiya [Selected works: the monograph]. Под ред. М. Я. Брыня. SPb.: Peterburgskij gos. un-t putej soobshcheniya, 2012, 448 p.
8.   Mizin V. E. Predraschet tochnosti koordinat poligonometricheskogo khoda dlya tselei monitoringa zemel' lineinykh ob"ektov. Interekspo GEO-Sibir'-2010. VI Mezhdunar. nauch. kongr.: Sb. materialov v 6 t., Novosibirsk: SGGA, 2010, Vol. 1, pp. 127–130.
9.   Castagnetti C., Cosentini R., Lancellotta R., Capra A. (2017) Geodetic monitoring and geotechnical analyses of subsidence induced settlements of historic structures. Structural Control and Health Monitoring, Volume 24, no. 12, pp. 42-49.
10.   Kuttykadamov M., Rysbekov K., Milev I., Ystykul K., Bektur B. (2016) Geodetic monitoring methods of high-rise constructions deformations with modern technologies application. Journal of Theoretical and Applied Information Technology, no. 93, pp. 24-31.
11.   Puglisi G., Bonaccorso A., Mattia M., Aloisi M., Bonforte A., Campisi O., Cantarero M., Falzone G., Puglisi B., Rossi M. (2005) New integrated geodetic monitoring system at Stromboli volcano (Italy). Engineering Geology, no. 79, pp. 1-2.
Citation:
Kanashin N.V., 
(2020) Using side-point method for increasing the accuracy of surveying network at monitoring engineering structures. Geodesy and cartography = Geodezia i Kartografia, 81(11), pp. 2-8. (In Russian). DOI: 10.22389/0016-7126-2020-965-11-2-8
Publication History
Received: 20.05.2020
Accepted: 22.09.2020
Published: 20.12.2020

Content

2020 November DOI:
10.22389/0016-7126-2020-965-11