Evaluation of organizational and technological design indicators of the object using modern digital models

Authors

  • Said Alvi Murtazaev Grozny State Oil Technical University
  • Magomed Elmurzaev Complex Research Institute
  • Salambek Aliyev Grozny State Oil Technical University
  • Imran Said Murtazaev Grozny State Oil Technical University
  • Aleksey Akulov State University of Management

DOI:

https://doi.org/10.23925/2179-3565.2025v16i1p115-130

Keywords:

Information modeling, Visual programming, Efficiency assessment, 4D Modeling

Abstract

The study aims to develop a methodology for assessing the efficiency of design parameters in organizational and technological design using digital models. The methodology is tested on a learning model imitating optimization process. The authors develop an algorithm for using information modeling tools to estimate organizational and technological indicators, such as labor intensity, the number of specialists and mechanisms, and the duration of work performance. The resource allocation and turnaround time by facility indicators are visualized and analyzed. Visual filters and color schemes allow one to identify elements with the highest load and potential areas for optimization. The proposed visual programming methodology proves effective in improving the visual clarity and flexibility of assessing organizational and technological indicators. This allows us to speed up the design process and improve the accuracy of planning construction works.

References

Akhmetshin, E., Fayzullaev, N., Klochko, E., Shakhov, D., Lobanova, V. (2024). Intelligent Data Analytics using Hybrid Gradient Optimization Algorithm with Machine Learning Model for Customer Churn Prediction. Fusion: Practice and Applications, 14 (2), 159-171. https://doi.org/10.54216/FPA.140213

Aliev, S.A., Murtazaev, I.S.A., Elmurzaev, M.A. (2023). Sovremennye normativno-tekhnicheskie trebovaniia pri razrabotke stroitelnoi tsifrovoi informatsionnoi modeli [Modern regulatory technical requirements for digital building information modeling]. Innovatsii v stroitelstve – 2023: Proceedings of the International Scientific and Practical Conference, Bryansk.

Bondarenko, N., Sigarev, A. (2024). Structural Changes In Global Value Networks: Current Factors And Risks. Revista relações internacionais do Mundo Atual, 2(44), 198-214.

Boton, C., Kubicki, S., & Halin, G. (2015). 4D/BIM simulation for pre-construction and construction scheduling. Multiple levels of development within a single case study, In Creative Construction Conference (pp. 500–505). Diamond Congress Ltd.

Brito, D. M., Ferreira, E. A. M. (2015). Strategies for representation and analyses of 4D modeling applied to construction project management. Procedia Economics and Finance, 21, 374-382.

Burak, M.S. (2020). Obzor programmnogo obespecheniia, primeniaemogo v stroitelstve sistemy avtomatizirovannogo proektirovaniia [Review of software used in the construction of computer-aided design systems]. Materials of the XXVII International scientific and practical conference, Tula State University.

Caldart, C. W., Scheer, S. (2022). Construction site design planning using 4D BIM modeling. Gestão & Produção, 29, e5312.

Chang, H. S., Kang, S. C., Chen, P. H. (2009). Systematic procedure of determining an ideal color scheme on 4D models. Advanced Engineering Informatics, 23(4), 463-473.

Chen, Y.H., Tsai, M.H., Kang, S.C., and Liu, C.W. (2013). Selection and evaluation of color scheme for 4D construction models. Journal of Information Technology in Construction 18, 1–19.

Denis, F. (2014). Tool for augmented parametric building information modelling for transformable buildings: Master's Thesis. Brussels Faculty of Engineering BRUFACE-ULB/VUB. https://doi.org/10.13140/RG.2.2.12357.86248

Glebova, I.S., Berman, S.S., Gribovskaya, V.A. (2022). Housing Construction: Problems And Prospects (As Exemplified By Russia). Revista Relações Internacionais do Mundo Atual, 2(35).

Hosseini, M. R., Khosrowshahi, F., Aibinu, A., Abrishami, S. (2021). BIM teaching and learning handbook: Implementation for students and educators. Routledge.

Ilyushin, Y., Afanaseva, O. Modeling of a spatial distributed management system of a preliminary hydro-cleaning gasoline steam column (2020). International Multidisciplinary Scientific GeoConference Surveying Geology and Mining Ecology Management, SGEM, 2020-August (2.1), pp. 531-538. DOI: https://doi.org/10.5593/sgem2020/2.1/s08.068

Khakimov, N., Fatkullina, A., Aleksandrova, I., Bilovus, V., Zaharova, L., Listopad, M. (2024). The Impact of Modular Residential Construction And Hybridization Processes On The Social Aspects Of Urbanization And Sustainable Urban Development. Revista Relações Internacionais do Mundo Atual, 1(43), 410-423.

Khrapkin, P. L., Artamenko, A.E. (2021). Metodichka po Synchro PRO/Bentley [Manual on Synchro PRO/Bentley]. St. Petersburg: NIP "Informatika".

Kirkolup, E.R., Polzunov, I.I. (2020). Informatsionnoe modelirovanie obektov stroitelstva [Digital modeling of construction objects] [Electronic edition]: practicum. Barnaul: Altai State Technical University Publishing House.

Matvienko, E., Zolkin, A., Suchkov, D., Shichkin, I., Pomazanov, V. (2022). Applying of Smart, Robotic Systems and Big Data Processing in Agro-industrial Complex. IOP Conference Series: Earth and Environmental Science, 981, 032002.

Nikandrova, L.V., Evtushenko, S.I. (2020). Ispolzovanie tekhnologii informatsionnogo modelirovaniia pri razrabotke proektnoi i rabochei dokumentatsii [The use of information modeling technologies in the development of design and working documentation]. Informatsionnye tekhnologii v obsledovanii ekspluatiruemykh zdanii i sooruzhenii. Proceedings of the XIX International Scientific and Technical Conference, Novocherkassk.

Nosova, S. S., Meshkov, S. A., Stroev, P. V., Meshkova, G. V., & Boyar-Sozonovitch, A. S. (2018). Digital technologies as a new vector in the growth of innovativeness and competitiveness of industrial enterprises. International Journal of Civil Engineering and Technology, 9(6), 1411-1422.

Panasenko, S., Fedyunin, D., Osipova, E., Star, I., Zotova, A., IavdolIuk, E. (2024). Features, Factors, And Risks of The Influence Of Metaverses On Business Development In The Digital Economy: Russian And International Context. Revista Relações Internacionais do Mundo Atual, 1(43), 397-409.

Shumilov, K.A., Gureva, Iu.A. (2022). Modelirovanie slozhnykh arkhitekturnykh obektov s ispolzovaniem Grasshopper, Rhino i Archicad [Modeling complex architectural objects using Grasshopper, Rhino and Archicad]. Engineering and Construction Bulletin of the Caspian Region, 2(40), 126-130.

Zaitseva, K.N., Starostin, D.S. (2019). Metody planirovaniia: setevye grafiki. Tendentsii razvitiia i primeneniia v Rossii. BIM tekhnologii [Planning techniques: network diagrams. Development trends and application in Russia. BIM technology]. Traditsii i innovatsii v stroitelstve i arkhitekture. Stroitelstvo, 521-525.

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Published

2025-03-31

Issue

Vol. 16 No. 1 (2025): Journal on Innovation and Sustainability

Section

Papers

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