Forecasting of soil precipitation during the construction of ground infrastructure facilities of spaceports using information systems

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№1-2024
Forecasting of soil precipitation during the construction of ground infrastructure facilities of spaceports using information systems

Forecasting of soil precipitation during the construction of ground infrastructure facilities of spaceports using information systems

DOI: 10.37153/2618-9283-2022-1-37-49

Authors:  

Raziapov Ruslan V.

Rustem M. Khuzin

student of the Department of Roads and Building Technology, Ufa State Petroleum Technological University. Ufa, Russian Federation


Roman A. Marusin
student of the Department of Building Structures, Ufa State Petroleum Technological University. Ufa, Russian Federation


Rubric:     Theoretical and experimental studies   
Key words: embankment sediment, weak soils, cartogram, precipitation modeling, augmented reality, spaceport
Annotation:
The article considers the method of forecasting precipitation of accumulation of bases on weak soils during the construction of ground infrastructure facilities of spaceports. Parameters and data are identified to calculate the predicted soil precipitation and the necessary time to consolidate the filling and start construction of buildings and structures at the spaceport. Application of the obtained data for 3D-modeling of the base with its predicted precipitation. Methods of application of investigated new methods of designing structures at the spaceport are described. Parameters and indicators affecting the amount of peat precipitation are given. The possibility of displaying a three-dimensional model of a weak base settlement taking into account the introduction of augmented reality is considered. Results and examples of use of complex forecast of fill precipitation on a weak basis are given.

 
Used Books:

1.         Barannik S.V. Applicability of BIM technologies in the road industry. CAD and GIS of highways. 2015, no. 1(4), pp. 24−28. DOI: 10.17273/CADGIS.2015.1.3               (In Russian)

2.         Perminov A.N., Penkov M.M., Ptushkin A.I. Kosmonavtika i raketostroenie — Cosmonautics and Rocket Engineering. 2006, no. 2 (43), pp. 82-90. (In Russian)

3.         Ptushkin A.I. Trudy Voenno-kosmicheskoy akademii im. A.F. Mozhayskogo — Proceedings of the Mozhaisky Military Space Academy, 2014, no. 643, pp. 141-149. (In Russian)

4.         Iskhakov Sh.Sh., Kovalev F.E., Kosenkov R.E. Mokhnatkin A.P. Izvestiya Peterburgskogo universiteta putey soobshcheniya [News of St. Petersburg University of Rail Transportation], 2016, vol. 13, no. 4 (49), pp. 592-599. (In Russian)

5.         Raikova L.S., Petrenko D.A. Construction of roads based on 3D models. CAD and GIS of highways. 2014, no. 2(3), pp. 81−85. DOI: 10.17273/CADGIS.2014.2.13 (In Russian)

6.         Alexandrov A.A., Barmin I.V., Denisov O.E., Chugunkov V.V. Innovative directions in the development and operation of ground-based space infrastructure of technical complexes of cosmodromes. Engineering Journal: Science and Innovation, 2018, issue 5. http://dx.doi.org/10.18698/2308-6033-2018-5-1765 (In Russian)

7.         Dalmatov B.I., Bronin V.N., Golly A.V., Karlov V.D., Mangushev R.A., Morarescul N.N., Sakharov I.I., Sotnikov S.N., Ulitsky V.M., Fadeev A.B. Designing foundations of buildings and underground structures: Textbook/ Edited by B.I.Dalmatov; 2nd ed. Moscow: Publishing House of the DIA; St. Petersburg: SPbGASU, 2001, 440 p. (In Russian)

8.         Skvortsov A.V. BIM highways: assessment of the maturity of technology. CAD and GIS of highways. 2014, no. 2(3), pp. 12−21.

DOI: 10.17273/CADGIS.2014.2.3. (In Russian)

9.         Skupov B. Features of the construction of cosmodromes in Russia and abroad. URL: https://ardexpert.ru/article/8123 (Date appeals: 12/25/2021). (In Russian)

10.         Tiunin E.B. Information technology Laboratory workshop / E.B. Tiunin, V.I. Kondratev. Krasnodar: KubGAU. 2013, 135 p. (In Russian)

11.         Fedko D. What is v-commerce and how trade is changing under the influence of AR and VR technologies. URL: https://ain.ua/ (Date appeals: 05/03/2021). (In Russian)

12.         Khemmit F. Virtual reality / F. Khemmit. Translation from English. M.: Print 2005. 104 p. (Date appeals: 05/03/2021). (In Russian)

13.     What is augmented reality?AR Next-all about augmented reality, 2017. URL:http://arnext.ru/dopolnennaya-realnost/ (Date appeals: 15/05/2021). (In Russian)

14.     Shishkin I. Augmented reality in 2019: what gives AR online retail. URL: https:// vc.ru/ (Date appeals: 01/04/2021). (In Russian)

15.     Iakovlev B.S., Pustov S.I. Classification and Perspective Directions for Augmented Reality Technology / B.S. Iakovlev. Izvestiia Tulskogo gosudarstvennogo universiteta. Tekhnicheskie nauki. 2013, no. 3, pp. 484-492. (In Russian)

16.     Iarkova A. AR, VR and MR (Augmented reality). URL: https://retailer.ru/ (Date appeals: 28/03/2021). (In Russian)


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