Published since 1923
DOI: 10.33622/0869-7019
Russian Science Citation Index (RSCI) Web of Science
  • RESEARCH AND DESIGN CENTER "CITY DEVELOPMENT" - CONSTRUCTION COMPLEX
  • Algorithmization Of Planning, Management And Information Processing Systems In Construction
  • UDC 69:004.942
    doi: 10.33622/0869-7019.2022.11.14-24
    Il'ya L. KIEVSKIY1,2, mail@dev-city.ru
    Sergey V. ARGUNOV1, s.argunov@dev-city.ru
    Jaroslav V. ZHAROV1,2, y.zharov@devcity-project.ru
    Alexey Yu. YURGAITIS1, a.yurgaytis@devcity-project.ru
    1 Scientific Design Center "City Development", Prospekt 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. A method of calendar-network planning consisting of several stages is considered, which is based on a preliminary calculation of the degree of deviation of the forecast terms for the implementation of construction and installation works and subsequent forecasting of the deviation function along the trend to stabilize the planning system at the facility, compliance with milestones and the timing of the project as a whole. The text and graphic description of the principal stages of this technique performed by the planning operator of the Developer (Technical Customer) is given. The methodology was tested at the pilot facility of the renovation program in Moscow and then integrated into the complex project management system of the renovation program using information modeling technologies (construction information model of the capital construction facility, digital environment of general data, digital statement of work volumes and other elements). The purpose of the study is to form the principles for improving the classical calendar planning methods, taking into account statistically sound planning and forecasting tools and also modern automation and digitalization capabilities from the current state of the art and the corresponding software of domestic vendors for the construction complex. As a result, a mathematical apparatus has been developed on which the basic techniques, the concept of visualization of calendar models and a fundamental decision-making system depending on the boundary conditions of significant organizational and technological indicators of construction project management are based.
    Keywords: planning system, information management and processing, digitalization, information modeling technologies, project planning and management, automation, calendar and network planning, forecasting, modeling in construction
  • REFERENCES
    1. Aksenov A. E., Bedzhanyan T. V., Vinogradov A. B. Information modeling of the 4D-construction schedule of an object on the example of a low-rise building. Tr. molodykh uchenykh instituta stroitel'stva 2020 g. Novosibirsk, Novosibirskiy gosudarstvennyy arkhitekturno-stroitel'nyy universitet (Sibstrin) Publ., 2020, pp. 206-220. (In Russ.).
    2. Argunov S. V., Semenov S. A. Forecasting an enlarged schedule of cost for the implementation of large-scale urban projects. Promyshlennoe i grazhdanskoe stroitel'stvo, 2021, no. 11, pp. 31-35. (In Russ.). doi: 10.33622/0869-7019.2021.11.31-35
    3. Bovteev S. V. Visualization of the process of construction of buildings and structures. Innovatsionnye metody organizatsii stroitel'nogo proizvodstva [Innovative methods of organization of construction production]. Materialy Vseros. nauch.-prakt. konf. (St. Petersburg, November 18-19, 2021). St. Petersburg, Sankt-Peterburgskiy gosudarstvennyy arkhitekturno-stroitel'nyy universitet Publ., 2021, pp. 3-8. (In Russ.).
    4. Bovteev S. V., Khanova L. R. Experience in the application of information modeling technologies in the design and organization of construction. Organizatsiya stroitel'nogo proizvodstva [Organization of construction production]. Materialy III Vseros. nauch.-prakt. konf. (St. Petersburg, February 10-11, 2021). St. Petersburg, Sankt-Peterburgskiy gosudarstvennyy arkhitekturno-stroitel'nyy universitet Publ., 2021, pp. 55-67. (In Russ.).
    5. Bovteev S. V. Modern methods of planning and control of investment and construction projects. Upravlenie proektami: idei, tsennosti, resheniya [Project management: ideas, values, solutions]. Materialy I Mezhdunar. nauch.-prakt. konf. (St. Petersburg, May 15-17, 2019). St. Petersburg, Sankt-Peterburgskiy gosudarstvennyy arkhitekturno-stroitel'nyy universitet Publ., 2019, pp. 188-194. (In Russ.).
    6. Dmitriev A. N., Bareshenkova K. A., Marchenkova S. V. The concept of transition to the introduction of digital information modeling technologies in Moscow construction. Sovremennye problemy upravleniya proektami v investitsionno-stroitel'noy sfere i prirodopol'zovanii [Modern problems of project management in the investment and construction sector and environmental management]. Materialy IX Mezhdunar. nauch.-prakt. konf., posvyashchennoy 112-letiyu RUE im. G. V. Plekhanova (Moscow, April 10-14, 2019). Moscow, Rossiyskiy ekonomicheskiy universitet im. G. V. Plekhanova Publ., 2019, pp. 208-220. (In Russ.).
    7. Zharov Ya. V. The use of multidimensional modeling methods in solving problems of organizational and technological design of construction. Normirovanie i oplata truda v stroitel'stve, 2019, no. 11, pp. 15-20. (In Russ.).
    8. 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 Russ.). doi: 10.12737/article_5a816be4a063d1.42360453
    9. Aleksanin A. V., Zharov Ya. V. The potential of using digital information models in the framework of construction management. Promyshlennoe i grazhdanskoe stroitel'stvo, 2022, no. 1, pp. 52-55. (In Russ.). doi: 10.33622/0869-7019.2022.01.52-55
    10. Sborshchikov S. B., Lazareva N. V., Zharov Ya. V. Theoretical bases of multidimensional modeling of sustainable development in investment and construction activities. Vestnik MGSU, 2014, no. 6, pp. 165-171. (In Russ.).
    11. Zaytseva K. N., Starostin D. S. Planning methods: network schedules. Trends in the development and application of BIM technology in Russia. Traditsii i innovatsii v stroitel'stve i arkhitekture. Stroitel'stvo [Traditions and innovations in construction and architecture. Construction]. Samara, Samarskiy gosudarstvennyy tekhnicheskiy universitet Publ., 2019, pp. 521-525. (In Russ.).
    12. Karasev I. S., Oparina L. A. Construction of a comparative matrix of functional characteristics of programs for calendar and network planning. Molodye uchenye - razvitiyu Natsional'noy tekhnologicheskoy initsiativy (POISK), 2021, no. 1, pp. 455-458. (In Russ.).
    13. Shamileva B. S. Organizational aspects of project financing as the mechanism of realization of investment projects. Internetnauka, 2016, no. 5, pp. 208-227. (In Russ.).
    14. Kievskiy I. L., Zharov Ya. V. Formation of competence centers for the application of BIM technologies in construction. Promyshlennoe i grazhdanskoe stroitel'stvo, 2021, no. 11, pp. 4-10. (In Russ.). doi: 10.33622/0869-7019.2021.11.04-10
    15. Kievskiy I. L., Argunov S. V. Renovation as a way to create a new quality living environment. Renovatsiya. Krupnomasshtabnyy gorodskoy proekt rassredotochennogo stroitel'stva [Renovation. Large-scale urban dispersed construction project]. Monografiya o nauchno-metodicheskikh podkhodakh i nachale realizatsii programmy renovatsii. Moscow, Russkaya shkola Publ., 2018, pp. 57-65. (In Russ.).
    16. Kievskiy L. V., Kievskiy I. L., Argunov S. V. Multiple renovation effects. Ibid, pp. 182-191. (In Russ.).
    17. Lapidus A. A., Stepanov A. E. Conducting a multifactorial experiment to determine the complex indicator of optimization of the duration of monolithic works. Nauka i biznes: puti razvitiya, 2020, no. 11(113), pp. 59-64. (In Russ.).
    18. Norin I. O., Dobrynin A. O. Calendar and network planning of work production using BIM technologies. Khimiya. Ekologiya. Urbanistika, 2021, vol. 2021-3, pp. 116-120. (In Russ.).
    19. Oleynik P. P., Maaruf A. Activities of the post-conflict urban reconstruction program. Stroitel'noe proizvodstvo, 2022, no. 1, pp. 54-58. (In Russ.). doi: 10.54950/26585340_2022_1_54
    20. Oleynik P. P., Kazaryan R. R., Bushuev N. I. Metody organizatsii stroitel'stva i proizvodstva stroitel'no-montazhnykh rabot [Methods of organization of construction and production of construction and installation works]. Moscow, NIU MGSU Publ., 2020. 60 p. (In Russ.).
    21. Kievskiy L. V., Kievskiy I. L., Khorkina Zh. A. et al. Renovatsiya. Krupnomasshtabnyy gorodskoy proekt rassredotochennogo stroitel'stva [Renovation. Large-scale urban dispersed construction project]. Monografiya o nauchno-metodicheskikh podkhodakh i nachale realizatsii programmy renovatsii. Moscow, Russkaya shkola Publ., 2018, 196 p. (In Russ.).
    22. Sharova A. S., Shenkman R. I. Technology of information modeling of calendar planning of construction. Sovremennye tekhnologii v stroitel'stve. Teoriya i praktika, 2020, vol. 2, pp. 183-187. (In Russ.).
    23. Oleinik P. P., Yurgaitis A. Yu. The method of forming solutions for non-critical activities in the preparation and optimization of the construction complex organizations annual program. MATEC Web of Conferences, 2018, vol. 193, p. 2018.
  • For citation: Kievskiy I. L., Argunov S. V., Zharov J. V., Yurgaitis A. Yu. Algorithmization of Planning, Management and Information Processing Systems in Construction. Promyshlennoe i grazhdanskoe stroitel'stvo [Industrial and Civil Engineering], 2022, no. 11, pp. 14-24. (In Russ.). doi: 10.33622/0869-7019.2022.11.14-24


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