AbstractAbout AuthorsReferences
The purpose of the article is to analyze the use of information models in the design of construction projects, the availability of a regulatory and technical framework governing the development of digital models, as well as to present one of the possible approaches to the design of the organization of construction on the example of a warehouse complex. The article analyzes the foreign and Russian experience of using information technologies when implementing construction projects, the problems of introducing and distributing the use of a digital model in construction organizations. The regulatory framework regulating the development of organizational and technological solutions at the construction site using information modeling technologies is considered. The results of a survey of construction companies in Russia on the implementation of BIM technologies (Building Information Modeling), national standards and levels of BIM are analyzed. A scheme of operational control over the progress of the construction process using a digital model is proposed. An algorithm for developing a digital model of the organization of construction on the example of a warehouse complex has been developed.
I.M. CHAKHKIEV1, Candidate of Sciences (Engineering),
V.E. FROLOVA1, Magistrand (This email address is being protected from spambots. You need JavaScript enabled to view it.),
L.M. KOLCHEDANTSEV1, Doctor of Sciences (Engineering);
R.N. SANDAN2, Candidate of Sciences (Engineering)
V.E. FROLOVA1, Magistrand (This email address is being protected from spambots. You need JavaScript enabled to view it.),
L.M. KOLCHEDANTSEV1, Doctor of Sciences (Engineering);
R.N. SANDAN2, Candidate of Sciences (Engineering)
1 Saint Petersburg State University of Architecture and Civil Engineering (4, Vtoraya Krasnoarmeiskaya Street, Saint Petersburg, 190005Russian Federation)
2 Tuva State University (36, Lenina Street, Kyzyl, 667000, Tuva Republic, Russian Federation)
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16. Balakina A., Simankina T., Lukinov V. 4D modeling in high-rise construction. E3S Web of Conferences. 2018. 3. 03044. Doi: org/10.1051/e3sconf/20183303044
2. Volkov A.A., Petrova S.N., Ginzburg A.V. Informatsionnye sistemy i tekhnologii v stroitel’stve: uchebnoe posobie [Information systems and technologies in construction]. Moscow: MGSU. 2015. 424 p.
3. Buravleva A.F., Klipina N.A., Krutilova M.O. The introduction of BIM technologies in the design and construction of real estate objects. Vestnik nauchnykh konferentsii. 2016. No. 10-3 (14), pp. 36–39. (In Russian).
4. Talapov V.V. What influences the implementation of BIM in Russia. SAPR i grafika. 2010. No. 11 (169), pp. 12–16. (In Russian).
5. Postnov K.V. Application of BIM technologies in management processes for design organizations. Nauchnoe obozrenie. 2015. No. 18, pp. 367–371. (In Russian).
6. Chegodaeva M.A. Difficulties in the implementation and development of BIM technologies in Russia. Molodoi uchenyi. 2017. No. 29 (163), pp. 29–32. (In Russian).
7. Klochenko M.O. Problems of BIM-technologies implementation. Actual problems of modern science. Collection of abstracts of scientific works of the XXIV International scientific and practical conference. 2017, pp. 14–17. (In Russian).
8. Verbov A.V. Karetnikova S.V. Foreign experience in the use of BIM technologies. New technologies in the educational process and production. Materials of the XVII International Scientific and Technical Conference. 2019, pp. 123–127. (In Russian).
9. Talapov V.V. Vnedreniye BIM v Singapure [BIM Implementation in Singapore.] SAPR i grafika. 2016. No. 1 (169), pp. 60–63. (In Russian).
10. PAS 1192-2:2013. Specification for information management for the capital/delivery phase of construction projects using building information modeling. The British Standards Institution. 2013, pp. 68. (In Russian).
11. Bew M., Underwood J., Wix J., Storer G. Going BIM in a Commercial World. eWork and eBusiness in Architecture, Engineering and Construction: European Conferences on Product and Process Modeling (ECCPM 2008). Sophia Antipolis. France. 2008, pp. 139–150.
12. Chegodaeva M.A., Toshin D.S. Advantages of building information modeling at the stage of construction and installation works. Nauchnoe obozrenie. 2017. No. 22, pp. 11–15. (In Russian).
13. Ginzburg A.V., Nesterova E.I. Technology of continuous information support of the life cycle of a construction object. Vestnik MGSU. 2011. No. 5, pp. 317–320. (In Russian).
14. Nastaeva Zh.Kh., Shafieva E.T. Experience in using BIM technologies abroad and the prospects for implementation in Russia. Ekonomika i sotsium. 2018. No. 11 (54), pp. 1245–1248. (In Russian).
15. Sharmanov V.V., Mamaev A.E., Simankina T.L. Control of construction risks based on BIM technologies. Stroitel’stvo unikal’nykh zdanii i sooruzhenii. 2017. No. 12 (63), pp. 113–124. (In Russian). Doi: 10.18720/CUBS.63.6
16. Balakina A., Simankina T., Lukinov V. 4D modeling in high-rise construction. E3S Web of Conferences. 2018. 3. 03044. Doi: org/10.1051/e3sconf/20183303044
For citation: Chakhkiev I.M., Frolova V.E., Kolchedantsev L.M., Sandan R.N. Development of a digital project for the organization of construction on the example of a warehouse complex. Zhilishchnoe Stroitel’stvo [Housing Construction]. 2021. No. 12, pp. 28–34. (In Russian). DOI: https://doi.org/10.31659/0044-4472-2021-12-28-34