Published since 1923
DOI: 10.33622/0869-7019
Russian Science Citation Index (RSCI) Web of Science
  • Organizational Provision Of Construction Projects Based On Information Modeling Technology
  • UDC 004.94:721.021.23 DOI: 10.33622/0869-7019.2021.12.55-60
    II'ya L. KIEVSKIY1, e-mail:
    Aleksandr V. ALEKSANIN2, e-mail:
    Yaroslav V. ZHAROV1,2, e-mail:
    1 Research and Design Center "City Development", prospect Mira, 19, str. 3, Moscow 129090, Russian Federation
    2 Moscow State University of Civil Engineering (National Research University), Yaroslavskoe shosse, 26, Moscow 129337, Russian Federation
    Abstract. The development of the construction industry, together with the active introduction of information technologies, makes it possible to apply radically new methods of working with information and modern methods of communication among participants in the implementation of complex construction projects. The goals and objectives of this work are aimed at improving the quality of projects being implemented, as well as increasing the speed of adoption and predictability of management decisions due to the use of information modeling technologies. The term "information modeling technology" in the study conducted is interpreted as a tool for generalizing and analyzing information about construction objects when implementing an integrated construction project (erection of several buildings or structures on the same territory), which serves as a reliable basis for making management decisions throughout the life cycle of the project program. The article uses publicly available data (legislative and regulatory legal acts, published works of foreign and domestic scientists), as well as materials for the practical implementation of a complex construction project. An algorithm for creating a project management system using information modeling technologies is proposed, which can become the basis for developing best practices for using information modeling technologies for all participants in the program for the implementation of complex construction projects, as well as for developing a methodological base for ensuring information communications of project participants based on information models.
    Key words: information modeling, digital information model, information technologies, digitalization, construction, project management.
    1. Bilal M., Oyedele L. O. Guidelines for applied machine learning in construction industry - A case of profit margins estimation. Advanced Engineering Informatics, 2020, vol. 43, p. 101013.
    2. Bilal M., Oyedele L. O., Qadir J. et al. Big Data in the construction industry: A review of present status, opportunities, and future trends. Advanced Engineering Informatics, 2016, vol. 30, pp. 500-512.
    3. Aleksanin A. V. Influence of information technologies on the possibilities of resource saving in construction. Inzhenernyy vestnik Dona, 2021, no. 2(74), pp. 11-19. (In Russian).
    4. Guerra B., Leite F., Faust K. M. 4D-BIM to enhance construction waste reuse and recycle planning: Case studies on concrete and drywall waste streams. Waste Management, 2020, vol. 116(1), pp. 79-90.
    5. Aleksanin A. Modern methods of increasing the level of resource saving in construction. IOP Conference Series: Materials Science and Engineering, 2020, vol. 869(6), p. 062028.
    6. Aleksanin A. Potential for the use of information systems in the management of construction waste. MATEC Web of Conferences, 2018, vol. 196, p. 04081.
    7. Lazareva N. V., Zinov'ev A. Yu. Nomenclature of works performed within the framework of construction and technical expertise based on information models. Promyshlennoe i grazhdanskoe stroitel'stvo, 2021, no. 6, pp. 48-55. (In Russian). DOI: 10.33622/0869-7019.2021.06.48-55.
    8. Lazareva N. V., Zinov'ev A. Yu. Regulation of work performance using information models as part of construction and technical expertise. Promyshlennoe i grazhdanskoe stroitel'stvo, 2020, no. 11, pp. 105-109. (In Russian). DOI: 10.33622/0869-7019.2020.11.105-109.
    9. Lazareva N. V., Zinov'ev A. Yu. The principles of informatization of construction and technical expertise. Promyshlennoe i grazhdanskoe stroitel'stvo, 2020, no. 7, pp. 41-45. (In Russian). DOI: 10.33622/0869-7019.2020.07.41-45.
    10. Zharov Ya. V. Estimation of parameters of organizational and technological solutions based on neural network models. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V. G. Shukhova, 2018, no. 2, pp. 110-115. (In Russian).
    11. Zharov Ya. V. Solving organizational and technological design problems using multidimensional modeling methods. Sistemy. Metody. Tekhnologii, 2016, no. 3(31), pp. 106-110. (In Russian).
    12. Zharov Ya. V. Multidimensional modeling technology - the potential of the construction industry. Nauchnoe obozrenie, 2015, no. 10-2, pp. 242-246. (In Russian).
    13. Zhuravlev P. A., Marukyan A. M., Sborshchikov S. B. Regulation of urban planning zoning, spatial planning, design of cities and facilities. Promyshlennoe i grazhdanskoe stroitel'stvo, 2021, no. 7, pp. 31-43. (In Russian). DOI: 10.33622/0869-7019.2021.07.31-43.
    14. Sborshchikov S. B., Zhuravlev P. A. The life cycle of urban planning solutions: the organizational aspect of their reengineering. Promyshlennoe i grazhdanskoe stroitel'stvo, 2021, no. 4, pp. 33-39. (In Russian). DOI: 10.33622/0869-7019.2021.04.33-39.
    15. Kievskiy I. L. Multifactor analysis of readiness of the market of building materials and machinery for the implementation of large-scale urban projects of dispersed construction in Moscow. International Journal of Civil Engineering and Technology, 2018, vol. 9, no. 12, pp. 348-357.
    16. Kievskiy I. L., Krutyakov A. Yu., Ivanova O. A. et al. Experience in using domestic and imported BIM products in the design of residential buildings. Promyshlennoe i grazhdanskoe stroitel'stvo, 2020, no. 11, pp. 42-48. (In Russian). DOI: 10.33622/0869-7019.2020.11.42-48.
    17. Kievskiy I. L. Coordination and management of large-scale urban dispersed construction projects in Moscow. Promyshlennoe i grazhdanskoe stroitel'stvo, 2019, no. 8, pp. 6-13. (In Russian). DOI: 10.33622/0869-7019.2019.08.6-13.
    18. Aleksanin A., Sborshikov S. Interrelation the life cycle of an object and the concept of sustainable development. IOP Conference Series: Materials Science and Engineering, 2018, vol. 365(6), p. 062006.
    19. Aleksanin A. V. Issues of sustainable development of construction in the UN resolution. Vestnik Belgorodskogo gosudarstvennogo tekhnologicheskogo universiteta im. V. G. Shukhova, 2017, no. 7, pp. 28-31. (In Russian).
    20. Zharov Ya. V. Organizational and technological design in construction based on an intelligent planning unit. Vestnik grazhdanskikh inzhenerov, 2019, no. 6(77), pp. 193-199. (In Russian).
    21. Kupriyanovskiy V. P. et al. Skills in the digital economy and challenges of the education system. International Journal of Open Information Technologies, 2017, vol. 5, no. 1, pp. 19-25. (In Russian).
  • For citation: Kievskiy I. L., Aleksanin A. V., Zharov Ya. V. Organizational Provision of Construction Projects Based on Information Modeling Technology. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering], 2021, no. 12, pp. 55-60. (In Russian). DOI: 10.33622/0869-7019.2021.12.55-60.