Published since 1923
DOI: 10.33622/0869-7019
Russian Science Citation Index (RSCI) на платформе Web of Science


  • TECHNOLOGY AND ORGANIZATION OF CONSTRUCTION
  • The Potential Of Using Digital Information Models In The Framework Of Construction Management
  • UDC 004.94:721.021.23 DOI: 10.33622/0869-7019.2022.01.52-55
    Aleksandr V. ALEKSANIN1, e-mail: aleks08007@mail.ru
    Yaroslav V. ZHAROV1,2, e-mail: y.zharov@devcity-project.ru
    1 Moscow State University of Civil Engineering (National Research University), Yaroslavskoe shosse, 26, Moscow 129337, Russian Federation
    2 Research and Design Center "City Development", prospekt Mira, 19, str. 3, Moscow 129090, Russian Federation
    Abstract. In recent years, the number of issued positive expert opinions and permits for the commissioning of facilities and the volume of resources involved in construction production in monetary terms, etc., has been increasing. At the same time, the volumes of available information obtained at all stages of the life cycle of an investment and construction project are increasing, and the requirements for the quality of design of capital construction facilities are increasing. New methods of working with the accumulated amount of data and the introduction of modern information technologies into the design processes are needed. The potential of using information modeling technology can be realized, among other things, by systematizing information based on digital information models of capital construction objects. The article proposes the use of a construction digital information model of a capital construction object at the stage of implementation of an investment and construction project, which will provide the necessary degree of integration with management processes. Positive practical results that can be achieved through the use of digital information models within the construction management system are shown.
    Key words: information modeling, project management, construction information model, shared data environment, digitalization of construction.
  • REFERENCES
    1. Elghaish F., Hosseini M. R., Matarneh S. et al. Blockchain and the 'Internet of Things' for the construction industry: research trends and opportunities [Блокчейн и "Интернет вещей" для строительной отрасли: тенденции и возможности исследований] // Automation in Construction. 2021. Vol. 132. P. 103942.
    2. Gamil Y., Abdullah M. A., Abd Rahman I., Asad M. M. Internet of things in construction industry revolution 4.0: Recent trends and challenges in the Malaysian context [Интернет вещей в строительной индустрии революция 4.0: последние тенденции и проблемы в контексте Малайзии] // Journal of Engineering, Design and Technology. 2020. Vol. 18. No. 5. Pp. 1091-1102.
    3. Nikmehr B., Hosseini M. R., Martek I. et al. Digitalization as a strategic means of achieving sustainable efficiencies in construction management: a critical review [Цифровизация как стратегическое средство достижения устойчивой эффективности в управлении строительством: критический обзор] // Sustainability. 2021. No. 13(9). P. 5040. DOI: 10.3390/su13095040.
    4. Bilal M., Oyedele L. O., Qadir J. et al. Big Data in the construction industry: a review of present status, opportunities, and future trends [Большие данные в строительной отрасли: обзор текущего состояния, возможностей и будущих тенденций] // Advanced Engineering Informatics. 2016. Vol. 30. Pp. 500-521.
    5. Bilal M., Oyedele L. O. Guidelines for applied machine learning in construction industry: a case of profit margins estimation [Рекомендации по прикладному машинному обучению в строительной отрасли: пример оценки рентабельности] // Advanced Engineering Informatics. 2020. Vol. 43. P. 101013.
    6. Zharov Ya. V. Estimation of parameters of organizational and technological solutions based on neural network models. Vestnik BGTU im. V. G. Shukhova, 2018, no. 2, pp. 110-115. (In Russian).
    7. 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).
    8. 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.
    9. Kornitskaya M. N., Makarevich I. A., Tyryshkin A. E. The possibility of using Russian software for information modeling of buildings in the design organizations of the city of Barnaul. Polzunovskiy al'manakh, 2020, vol. 1, no. 2, pp. 96-99. (In Russian).
    10. Aleksanin A. Potential for the use of information systems in the management of construction waste [Возможности использования информационных систем в управлении строительными отходами] // MATEC Web of Conferences. 2018. С. 04081.
    11. 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 [Многофакторный анализ готовности рынка строительных материалов и техники к реализации масштабных городских проектов рассредоточенного строительства в Москве] // International Journal of Civil Engineering and Technology. 2018. Vol. 9. No. 12. Pp. 348-357.
    12. Aleksanin A. Modern methods of increasing the level of resource saving in construction [Современные методы повышения уровня ресурсосбережения в строительстве] // IOP Conference Series: Materials Science and Engineering. 2020. С. 062028.
  • For citation: Aleksanin A. V., Zharov Ya. V. The Potential of Using Digital Information Models in the Framework of Construction Management. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering], 2022, no. 1, pp. 52-55. (In Russian). DOI: 10.33622/0869-7019.2022.01.52-55.

BACK