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English
In connection with the current demand for reducing the implementation of investment and construction projects, there is a need to determine the risks that affect the duration.
Within the framework of building and construction works, there is a risk of various destabilizing factors arising, leading to economic losses and increased construction period, and consequently a decrease in labor productivity.
Existing administrative barriers, maintaining and coordinating a large amount of executive documentation leads to high costs of various resources. In this regard, the work optimized the functioning of the construction control system.
The study identified factors that influence the functioning of the construction control system. A rational procedure for carrying out construction control of capital construction projects has been determined.
The study used such methods as: the method of expert assessments, statistical data analysis, and the Varimax rotation method.
The results of the study were introduced into the activities of the organization performing the functions of a developer at the stage of construction of objects.
As a result, a method of interaction between participants in the construction control system has been formed, which allows increasing labor productivity.
Within the framework of building and construction works, there is a risk of various destabilizing factors arising, leading to economic losses and increased construction period, and consequently a decrease in labor productivity.
Existing administrative barriers, maintaining and coordinating a large amount of executive documentation leads to high costs of various resources. In this regard, the work optimized the functioning of the construction control system.
The study identified factors that influence the functioning of the construction control system. A rational procedure for carrying out construction control of capital construction projects has been determined.
The study used such methods as: the method of expert assessments, statistical data analysis, and the Varimax rotation method.
The results of the study were introduced into the activities of the organization performing the functions of a developer at the stage of construction of objects.
As a result, a method of interaction between participants in the construction control system has been formed, which allows increasing labor productivity.
[1] Lapidus A., Khubaev A., Bidov T. Development of a three-tier system of parameters in the formation of the organizational and technological potential of using non-destructive testing methods. E3S WEB OF CONFER-ENCES "22nd International Scientific Conference on Construction the Formation of Living Environment, FORM 2019". Tashkent: EDP Sciences, 2019. P. 06037 DOI: 10.1051/e3sconf/20199706037
[2] Kuzmina T.K., Akimova E.A., Bolshakov A.N. Features of interaction between participants in the construction control system of capital construction objects. Engineering Bulletin of the Don. 2023. 8 (104). P. 451 – 466.
[3] Kalizhanova A., KozbakovA., Kunelbayev M., Aitkulov Zh., Kenshimov Sh. Testing of an optoelectronic system of distributed fiber-optic sensors for monitoring and diagnosing the state of building structures. Bulletin of the Kazakh Academy of Transport and Communications named after. M. Tynyshpayev. 2023. 2 (125). P. 293 – 301. DOI 10.52167/1609-1817-2023-125-2-293-301
[4] Lapidus A.A., Skudar F.M., Nazarova K.A. Features of construction control of unique buildings above 100 m. Engineering Bulletin of the Don. 2022. (5). URL: ivdon.ru/ru/magazine/archive/n5y2022/7667
[5] Popova A.D., Kalenik A.I. Construction control during the construction of unique objects in Russia and abroad. Days of student science: Collection of reports of a scientific and technical conference on the results of research work of students of the Institute of Construction and Architecture. Mos
[6] Orlov V.A., Pashinsky I.M., Usmonov D.Kh.U. Assessing the effectiveness of construction control using the “general data environment” technology. Current issues of modern science and education: collection of articles of the XXXV International scientific and practical conference. In 2 parts, Penza, January 20, 2024. Penza: Science and Enlightenment (IP Gulyaev G.Yu.). 2024. P. 162 – 170.
[7] Topchiy D.V. Organizational and technical solutions to ensure the quality of construction and installation works at various stages of the life cycle of a construction project. Bulletin of MGSU. 2023. 18 (2). P. 283 – 292. DOI 10.22227/1997-0935.2023.2.283-292
[8] Taranukha N.L., Shishkina A.A. The role of state construction supervision and construction control in ensuring the quality and safety of construction. Socio-economic Management: Theory and Practice. 2023. 19 (2). P. 29 – 34. DOI 10.22213/2618-9763-2023-2-29-34
[9] Jovanovic J. Buildings` Site Management and Supervision: Cost Analysis of Labor Positions. International Journal of Engineering Trends and Technology. 2021. 69 (5). P. 242 – 248. Crossref. https://doi.org/10.14445/22315381/IJETT-V69I5P231
[10] Makarov Aleksandr. Organization of Construction Quality Control based on a Priori Risks of Works. International Journal of Engineering Trends and Technology. 2023. 71 (1). P. 134 – 140. Crossref, https://doi.org/10.14445/22315381/IJETT-V71I1P212
[11] Loosemore Martina, Lim Benson. Relationship Quality in Construction Projects: A Subcontractor Perspective of Principal Contractor Relationships. International Journal of Project Management. 2021. 39 (6). P. 633 – 645. Crossref, https://doi.org/10.1016/j.ijproman.2021.05.002
[12] Aawag Mohsen Alawag et al. Critical Success Factors Influencing Total Quality Management Inindustrialised Building System: A Case of Malaysian Construction Industry. Ain Shams Engineering Journal. 2023. 14 (2). Crossref, https://doi.org/10.1016/j.asej.2022.101877
[13] Nokulunga Mashwama, Clinton Aigbavboa, Didi Thwala. An Assessment of the Critical Success factor for The Reduction of Cost of Poor Quality in Construction Projects in Swaziland. Procedia Engineering. 2017. 196. P. 447 – 453. Crossref, https://doi.org/10.1016/j.proeng.2017.07.223
[14] Hanbin Luo et al. Digital Technology for Quality Management in Construction: A Review and Future Research Directions. Developments in the Built Environment. 2022. 12. P. 100087. Crossref, https://doi.org/10.1016/j.dibe.2022.100087
[15] Mihai Iliescu, and Remus Ciocan. Modern Technologies Innovation in Use for Quality Control on Construction Site. Procedia Engineering. 2017. 181. P. 999 – 1004. Crossref, https://doi.org/10.1016/j.proeng.2017.02.499
[16] Novisca M. Anditiaman et al. Productivity Model of Labour on Construction Projects in Indonesia. International Journal of Engineering Trends and Technology. 2022. 70 (11). P. 211 – 218. Crossref, https://doi.org/10.14445/22315381/IJETT-V70I11P223
[17] Kuzmina Т., Bolshakova P. Analyzing quality of interaction between participants in the construction control system. International Scientific Forestry Forum 2023: Forest Ecosystems as Global Resource of the Biosphere: Calls, Threats, Solutions (Forestry Forum 2023), Voronezh, Russian Federation, 23-25 October 2023. Les Ulis, 2024. (93). P. 04020. DOI 10.1051/bioconf/20249304020
[2] Kuzmina T.K., Akimova E.A., Bolshakov A.N. Features of interaction between participants in the construction control system of capital construction objects. Engineering Bulletin of the Don. 2023. 8 (104). P. 451 – 466.
[3] Kalizhanova A., KozbakovA., Kunelbayev M., Aitkulov Zh., Kenshimov Sh. Testing of an optoelectronic system of distributed fiber-optic sensors for monitoring and diagnosing the state of building structures. Bulletin of the Kazakh Academy of Transport and Communications named after. M. Tynyshpayev. 2023. 2 (125). P. 293 – 301. DOI 10.52167/1609-1817-2023-125-2-293-301
[4] Lapidus A.A., Skudar F.M., Nazarova K.A. Features of construction control of unique buildings above 100 m. Engineering Bulletin of the Don. 2022. (5). URL: ivdon.ru/ru/magazine/archive/n5y2022/7667
[5] Popova A.D., Kalenik A.I. Construction control during the construction of unique objects in Russia and abroad. Days of student science: Collection of reports of a scientific and technical conference on the results of research work of students of the Institute of Construction and Architecture. Mos
[6] Orlov V.A., Pashinsky I.M., Usmonov D.Kh.U. Assessing the effectiveness of construction control using the “general data environment” technology. Current issues of modern science and education: collection of articles of the XXXV International scientific and practical conference. In 2 parts, Penza, January 20, 2024. Penza: Science and Enlightenment (IP Gulyaev G.Yu.). 2024. P. 162 – 170.
[7] Topchiy D.V. Organizational and technical solutions to ensure the quality of construction and installation works at various stages of the life cycle of a construction project. Bulletin of MGSU. 2023. 18 (2). P. 283 – 292. DOI 10.22227/1997-0935.2023.2.283-292
[8] Taranukha N.L., Shishkina A.A. The role of state construction supervision and construction control in ensuring the quality and safety of construction. Socio-economic Management: Theory and Practice. 2023. 19 (2). P. 29 – 34. DOI 10.22213/2618-9763-2023-2-29-34
[9] Jovanovic J. Buildings` Site Management and Supervision: Cost Analysis of Labor Positions. International Journal of Engineering Trends and Technology. 2021. 69 (5). P. 242 – 248. Crossref. https://doi.org/10.14445/22315381/IJETT-V69I5P231
[10] Makarov Aleksandr. Organization of Construction Quality Control based on a Priori Risks of Works. International Journal of Engineering Trends and Technology. 2023. 71 (1). P. 134 – 140. Crossref, https://doi.org/10.14445/22315381/IJETT-V71I1P212
[11] Loosemore Martina, Lim Benson. Relationship Quality in Construction Projects: A Subcontractor Perspective of Principal Contractor Relationships. International Journal of Project Management. 2021. 39 (6). P. 633 – 645. Crossref, https://doi.org/10.1016/j.ijproman.2021.05.002
[12] Aawag Mohsen Alawag et al. Critical Success Factors Influencing Total Quality Management Inindustrialised Building System: A Case of Malaysian Construction Industry. Ain Shams Engineering Journal. 2023. 14 (2). Crossref, https://doi.org/10.1016/j.asej.2022.101877
[13] Nokulunga Mashwama, Clinton Aigbavboa, Didi Thwala. An Assessment of the Critical Success factor for The Reduction of Cost of Poor Quality in Construction Projects in Swaziland. Procedia Engineering. 2017. 196. P. 447 – 453. Crossref, https://doi.org/10.1016/j.proeng.2017.07.223
[14] Hanbin Luo et al. Digital Technology for Quality Management in Construction: A Review and Future Research Directions. Developments in the Built Environment. 2022. 12. P. 100087. Crossref, https://doi.org/10.1016/j.dibe.2022.100087
[15] Mihai Iliescu, and Remus Ciocan. Modern Technologies Innovation in Use for Quality Control on Construction Site. Procedia Engineering. 2017. 181. P. 999 – 1004. Crossref, https://doi.org/10.1016/j.proeng.2017.02.499
[16] Novisca M. Anditiaman et al. Productivity Model of Labour on Construction Projects in Indonesia. International Journal of Engineering Trends and Technology. 2022. 70 (11). P. 211 – 218. Crossref, https://doi.org/10.14445/22315381/IJETT-V70I11P223
[17] Kuzmina Т., Bolshakova P. Analyzing quality of interaction between participants in the construction control system. International Scientific Forestry Forum 2023: Forest Ecosystems as Global Resource of the Biosphere: Calls, Threats, Solutions (Forestry Forum 2023), Voronezh, Russian Federation, 23-25 October 2023. Les Ulis, 2024. (93). P. 04020. DOI 10.1051/bioconf/20249304020
Lapidus A.A., Kuzmina T.K., Bolshakova P.V. Improving the procedure for interaction between participants in the construction control system in order to increase labor productivity. Construction Materials and Products. 2024. 7 (4). 1. https://doi.org/10.58224/2618-7183-2024-7-4-1