Assessment of the efficiency of using information modeling technology for buildings and structures as a construction security planning tool
Keywords:
4D technology, economic and visual mathematical models of buildings and structures, security, construction organization project, mathematical models of building information, master plan
Abstract
Objective: presentation of an innovative method for the development of organizational and technological solutions, economically supported, that allow to provide an optimal response regarding the time and cost of construction production, the method of its use, the economic support for the application of this method in the development and implementation of the construction organization plan (COP) of industrial facilities. Methods: systems approach, statistical and comparative analysis, national and international developments in the field of construction production organization, economic and visual modeling, construction information modeling. Results: the tests of buildings and structures were analyzed in order to study the elements of the quality systems of BIM technologies in planning, security management of construction production. An algorithm for the operation of this model is presented for the development of a construction organization project (COP). Conclusions: Construction research shows that 4D Building Information Modeling (BIM) can improve the planning, control and management of security at a construction site.
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References
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Sijie Zhang, Kristiina Sulankivi, Markku Kiviniemi, Ilkka Romo, Charles M. Eastman, Jochen Teizer, BIM-based fall hazard identification and prevention in construction safety planning// Safety Science, Volume 72, (2015), Pages 31-45, ISSN 0925-7535, https://doi.org/10.1016/j.ssci.2014.08.001.
Sudakov, K.V., Chulcov, V.O., Kazaryan, R.R., Glazachev, O.S., Dmitrieva, N.V., Komarov, N.M., (2013). Antropotechnics: Norm in every living thing and artificial beings. SvR-ARGUS, Moscow.
Sulankivi, K. (2014). BIM promoting construction site safety: Industry examples. Paper presented at Using BIM to Enhance Construction Safety and Health.
Sultanova I.P. Analysis of planning, management, and development of organizational and technological solutions in major construction projects // Vestnik MGSU. (2015). No. 7. P. 127- 136. DOI:10.22227/1997-0935.2015.7.127-136
Vitaliy O. Chulkov, Ruben R. Kazaryan, Anastasya I. Shatrova (2020). Innovative water proofing of exploitable roofs in high-rise construction, Journal of Mechanics of Vontinua and Mathematical Sciences, Special Issue, No-8, April, (2020), pp 144-154.
Zhang, J.P.; Hu, Z.Z. (2011). BIM- and 4D-based integrated solution of analysis and management for conflicts and structural safety problems during construction: 1. Principles and methodologies, Automation in Construction, Volume 20, Issue 2, (2011), Pages 155-166, ISSN 0926-5805, https://doi.org/10.1016/j.autcon.2010.09.013.
Aleksandrova E. B. (2018). Minimizing the risks of investment and construction projects using BIM technologies // “Innovations and Investments”, No. 11, (2018), pp. 15 – 18
Akinci, B.; Fischer, M.; Levitt, R.; Carlson, R. (2002). Formalization and automation of time– space conflict analysis, Journal of Computing in Civil Engineering 16 (2) (2002), 124–134. DOI:10.1061/(ASCE)0887-3801(2002)16:2(124)
Bachurina S.S., Sultanova I.P. (2015). The concept of creating an economic and visual model of a tool for increasing the efficiency of the implementation of investment and construction projects // Theory of urban planning. (2015). No. 1. P. 11-14.
Churbanov A.E., Shamara Yu.A. (2018). The influence of information modeling technology on the development of the investment and construction process. Vestnik MGSU. (2018).Vol. 13. Issue 7 (118). P. 824 – 835. DOI:10.22227/1997-0935.2018.7.824-835
Chulkov, V.O.; Kazaryan, R.R. (2019). The Concept of Advance Formation of Anthropotechnical Security of Functioning and Life Quality of a Human in Cyberphysical Building Systems Using Digitalization, Modern Management Trends and the Digital Economy: from Regional Development to Global Economic Growth” (MTDE 2020), Advances in Economics, Business and Manangment Research, volume 138, pp 371-376. DOI:10.2991/iscde-19.2019.124
Downey, Jennifer (2012). Turner Innovation Series ‐ BIM Conference Istanbul. Construction Company.
Gambatese, J., Behm, M., Hinze., J. (2005) Viability of Designing for Construction Worker Safety, Journal of Construction Engineering and Management, 131 (9), 1029-1036. DOI:10.1061/(ASCE)0733-9364(2005)131:9(1029)
Hartmann, T and Fischer, M (2007) Supporting the constructability review with 3D/4D models. “Building Research and Information”, 35(1), 70–80. DOI:10.1080/09613210600942218
Hiravennavar, Apurva & Angadi, Shivamanth (2020). Implementation construction site safety plan using bim model // 49th ASC Annual International Conference Proceedings.
International Labour OYce (ILO) (1985). Safety and health in building and civil engineering work. International Labour OYce, Geneva.
Kazaryan, Ruben (2020). The Problem of a Rational Relationship of the General Transport Infrastructure, Proceedings of the XIII International Scientific Conference on Architecture and Construction (2020), LNCE 130, 2021, pp.33-39. DOI:10.1007/978-981-33-6208-6_4
Kazaryan, Ruben (2019). Aspects in Managing the Life Cycle of Construction Projects, Part (SPRINGER) of the Advances in Intelligent Systems and Computing book series (AISC, volume 1258). EMMFT (2019), pp 768-776. DOI:10.1007/978-3-030-57450-5_65
Kazaryan, Ruben (2020). Bases of Elements of Multi-Criteria Analysis of Quality of Design Decisions, WMCAUS 2020; IOP Publishing IOP Conf. Series: Materials Science and Engineering; doi:10.1088/1757-899X/960/2/022036 960 (2020), 022036.
Kazaryan, Ruben (2020). Some Aspects of Anthropotechnical Safety Management Concept, WMCAUS 2020; IOP Publishing IOP Conf. Series: Materials Science and Engineering; doi:10.1088/1757-899X/960/2/022036 960 (2020), 022037.
Kazaryan, Ruben (2019). The Concept of Anthropotechnical Safety of Functioning and Quality of Life, Part (SPRINGER) of the Advances in Intelligent Systems and Computing book series (AISC, volume 1258). EMMFT 2019, pp 759-767. DOI:10.1007/978-3- 030-57450-5_64
Kazaryan, Ruben (2021). The Concept of Development of the Integrated Transport System of the Russian Federation, Transportation Research ProcediaVolume 54, (2021), pp 602-609.
Kiviniemi, M., Sulankivi, K., Kähkönen, K., Mäkelä, T., & Merivirta, M-L. (2011). BIM-based Safety Management and Communication for Building Construction. VTT Technical Research Centre of Finland. VTT Tiedotteita-Research Notes No. 2597 http://www.vtt.fi/inf/pdf/tiedotteet/2011/T2597.pdf
Korabelnikova S.S., Korabelnikov S.K. Digital technology as an element of reducing the risks in the construction. Diskussiya [Discussion], 93, 18 – 27. DOI 10.24411/2077-7639-2019-10002
Korabelnikova S.S., Korabelnikov S.K. Digital technology as an element of reducing the risks in the construction. Diskussiya [Discussion], 93, 18 – 27
Lu Y., Gong P., Tang Y., Sun S., Li Q. BIM-integrated construction safety risk assessment at the design stage of building projects Automation in Construction, Volume 124, (2021)
Sijie Zhang, Kristiina Sulankivi, Markku Kiviniemi, Ilkka Romo, Charles M. Eastman, Jochen Teizer, BIM-based fall hazard identification and prevention in construction safety planning// Safety Science, Volume 72, (2015), Pages 31-45, ISSN 0925-7535, https://doi.org/10.1016/j.ssci.2014.08.001.
Sudakov, K.V., Chulcov, V.O., Kazaryan, R.R., Glazachev, O.S., Dmitrieva, N.V., Komarov, N.M., (2013). Antropotechnics: Norm in every living thing and artificial beings. SvR-ARGUS, Moscow.
Sulankivi, K. (2014). BIM promoting construction site safety: Industry examples. Paper presented at Using BIM to Enhance Construction Safety and Health.
Sultanova I.P. Analysis of planning, management, and development of organizational and technological solutions in major construction projects // Vestnik MGSU. (2015). No. 7. P. 127- 136. DOI:10.22227/1997-0935.2015.7.127-136
Vitaliy O. Chulkov, Ruben R. Kazaryan, Anastasya I. Shatrova (2020). Innovative water proofing of exploitable roofs in high-rise construction, Journal of Mechanics of Vontinua and Mathematical Sciences, Special Issue, No-8, April, (2020), pp 144-154.
Zhang, J.P.; Hu, Z.Z. (2011). BIM- and 4D-based integrated solution of analysis and management for conflicts and structural safety problems during construction: 1. Principles and methodologies, Automation in Construction, Volume 20, Issue 2, (2011), Pages 155-166, ISSN 0926-5805, https://doi.org/10.1016/j.autcon.2010.09.013.
Published
2022-01-14
How to Cite
Bilonda Tregubova, E., & Kazaryan, R. (2022). Assessment of the efficiency of using information modeling technology for buildings and structures as a construction security planning tool. Journal of the University of Zulia , 13(36), 305-322. https://doi.org/10.46925//rdluz.36.20
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