18-26 p.
The article reveals definitions and the entity of computer-aided design and building information modeling. The content and effect of using information modeling at various phase of the life cycle of a real estate object are described in the article. The level of BIM applying in Russia is analyzed, data is obtained that the majority of AEC organizations do not use information modeling. A comparative evaluation of the applying of various CAE systems using mathematical modeling in the MATLAB environment using the Fuzzy Logic Toolbox extension package is carried out. Based on the obtained results, we can make a conclusion about the effectiveness of using building information modeling. The information in this article is relevant for designers, real estate investors, and leaders of AEC organizations. The obtained evaluation of project technology is able to induce stakeholders to analyze alternative technology of project and estimate the expediency of Russian enterprise's transition to the use of BIM technology.
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8. Ivson P., Moreira A., Queiroz F., Santos W., Celes W. A Systematic Review of Visualization in Building Information Modeling. IEEE Transactions on Visualization and Computer Graphics. 2020. 26 (10). P. 3109 – 3127.
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13. Choi J., Kim H., Kim I. Open BIM-based quantity take-off system for schematic estimation of building frame in early design stage. Journal of Computational Design and Engineering. 2015. 2 (1). P. 16 – 25.
14. Ma L., Sacks R., Kattel U., Bloch T. 3D Object Classification Using Geometric Features and Pairwise Relationships. Computer-Aided Civil and Infrastructure Engineering. 2018. 33 (2). P. 152 – 164.
15. Lin Y.-C., Chen Y.-P., Huang W.-T., Hong C.-C. Development of BIM execution plan for BIM model management during the pre-operation phase: A case study. Buildings. 2016. 6 (1).
16. LLC “Konkurator”. The study “The level of BIM application in Russia”. 2019.URL: http://concurator.ru/information/bim_report_2019 (rus.)
17. Aladag H., Demirdogen G., Isik Z. Building Information Modeling (BIM) Use in Turkish Construction Industry. Procedia Engineering. 2016. № 161. P. 174 – 179.
18. Hollstein T., Halgamuge S.K., Glesner M. Computer-aided design of fuzzy systems based on generic VHDL specifications. IEEE Transactions on Fuzzy Systems. 1996. 4 (4). P. 403 – 417.
19. Imamguluyev R. Application of Fuzzy Logic Model for Correct Lighting in Computer Aided Interior Design Areas. Advances in Intelligent Systems and Computing. 2021. 1197 AISC. P. 1644 – 1651.
20. Chen C.-J., Chen S.-Y., Li S.-H., Chiu H.-T. Green BIM-based building energy performance analysis. Computer-Aided Design and Applications. 2017. 14 (5). P. 650 – 660.
Solovyev D.B., Kopotilova V.G., Katyuk D.P., Pirus A.V., Grigoryuk V.A., Krylova A.I. Comparison of BIM and CAD technology efficiency with the use of a mathematical model. Construction Materials and Products. 2021. 4 (1). P. 18 – 26. https://doi.org/10.34031/2618-7183-2021-4-1-18-26