Integration of digital technologies in the field of construction in the Russian Federation

• Autorzy: Aleksandrova Elena , Vinogradova Victoria , Tokunova Galina

Identyfikatory

DOI

10.2478/emj-2019-0019

• Języki publikacji: EN

Abstrakty

EN

The article presents the study that mainly focused on the changes made as a result of collaborative innovations in business relationships developed during the period of digitalisation in the construction field of the Russian Federation. It is a conceptual piece of work based on the systematic approach to the analysis, literature review and comparative analysis. The digitalisation of investment and construction projects is technologically based on the integration of solutions, such as the building information model (BIM), high-performance IT-systems, cloud platforms and the Internet-of-Things, resulting in unified and constant connectivity, specialised mobile applications, robotic equipment, unmanned vehicles, additive technologies, AR/VR services for the analysis of Big-Data, and blockchain technologies. The integration of digital technologies is a radical innovation, which highlights collaborative innovations in business relationships and makes it possible to form a united digital ecosystem that allows firms to manage, control and regulate the full lifecycle of a construction project, and then, the property in real-time. The contribution of this work to the construction field is the offered model for the creation of a digital ecosystem and the described role of the government in the model. Also, this work can be used for the integration of BIM technologies in construction companies.

Słowa kluczowe

EN

digital ecosystem; digital technology; investment and construction project; BIM technology; collaborative innovation; digital economy

PL

cyfrowy ekosystem; technologia cyfrowa; projekt inwestycyjno-budowlany; Technologia BIM; innowacja oparte na współpracy; gospodarka cyfrowa

• Wydawca: Oficyna Wydawnicza Politechniki Białostockiej
• Czasopismo: Engineering Management in Production and Services
• Rocznik: 2019
• Tom: Vol. 11, no. 3
• Strony: 38--47
• Opis fizyczny: Bibliogr. 21 poz., rys.

Twórcy

autor

Aleksandrova Elena

• Saint Petersburg State University of Architecture and Civil Engineering, Russia

autor

Vinogradova Victoria

• Saint Petersburg State University of Architecture and Civil Engineering, Russia

autor

Tokunova Galina

• Saint Petersburg State University of Architecture and Civil Engineering, Russia

Bibliografia

• Ablyazov, T.H., & Petrov, I.S. (2017). Principles of Entrepreneurship in the Construction Sector in the Context of the Formation of the Digital Economy. Ekonomika i Predprinimatel’stvo, 12(4), 712-717.
• Analytical Report of J’son & Partners Consulting. (2019). Market analysis of cloud IoT-platforms and buildings and structures design and operation processes optimization applications in the world and its perspectives in Russia (including the 7D BIM support with integration in BMS/BAS). Retrieved from http://json.tv/ict_telecom_analytics_view/analizrynka-oblachnyh-iot-platform-i-prilojeniy-dlyastroitelstva-s-podderjkoy-7d-bim-i-integratsiey-sbmsbas-20181126070535
• Analytical Report of J’son & Partners Consulting. (2019). The perspectives of the 3D-printing and Additive Manufacturing market in Russia Retrieved from http://json.tv/ict_telecom_analytics_view/rynok-3d-pechati-v-rossii-i-mireadditivnoeproizvodstvo-ap-additive-manufacturing-am-2018-g-20190117060056
• Audretsch, D.B., Cunningham, J.A., Kuratko, D.F., Lehmann, E.E., & Menter, M. (2018). Entrepreneurial ecosystems: economic, technological, and societal impacts. The Journal of Technology Transfer, 44, 313-325. doi: 10.1007/s10961-018-9690-4
• Churbanov, A.E., & Shamara, Yu,A. (2018). The impact of information modeling technology on the development of investment construction process. Vestnik MGSU [Proceedings of the Moscow State University of Civil Engineering], 13(7-118), 824-835. doi: 10.22227/1997-0935.2018.7.824-835
• Gama, F. (2018). Managing collaborative ideation: the role of formal and informal appropriability mechanisms. International Entrepreneurship and Management Journal, 15, 97-118. doi: 10.1007/s11365-018-0544-1
• Ginzburg, A.V. (2016). Building life cycle information modelling. Promyshlennoe i Grazhdanskoe Stroitelstvo [Industrial and Civil Engineering], 9, 61-65.
• Hsieh, W.-L., Ganotakis, P., Kafouros, M., & Wang, C. (2018). Foreign and Domestic Collaboration, Product Innovation Novelty, and Firm Growth. The Authors Journal of Product Innovation Management, 35(4), 652-672. doi: 10/1111/jpim.12435
• Ignatova, E.V., & Utkin, M.A. (2019). BIM for building structures. Construction Systems Engineering. Cyberphysical building systems: a collection of materials of the seminar held in the framework of the VI International Scientific Conference “Integration, partnership and innovation in building science and education”. National Research University Moscow State University of Civil Engineering (MGSU Press), 99-103. Retrieved from http://mgsu.ru/resources/izdatelskayadeyatelnost/izdaniya/izdaniya-otkr-dostupa/
• Kallaur, G.Y. (2018). Investment justification in information modelling technologies. The Economics of Construction, 1(49), 27-38.
• Kupriyanovsky, V., Sinyagov, S., & Dobrynin, A. (2016). BIM – Digital Economy. How to achieve the success? A practical approach to the theoretical concept. Part 1: Approaches and the main advantages of BIM. International Journal of Open Information Technologies, 3, 1-8.
• Mironov, V. (2018). Big data in construction: how to reduce costs and increase sales. Official site of ROSBUSINESSCONSULTING JSC. Retrieved from https://pro.rbc.ru/news/5aeb31c69a794795449a56b4#sixth
• NBS BIM Object Standard. (2016). British standard PAS-1192-3:2013. Retrieved from https://www.nationalbimlibrary.com/en/nbs-bim-object-standard
• Obodnikov, V.D., Alekseev, S.A. & Kagan, P.B. (2018). Application of VR-technologies in BIM design. Construction Systems Engineering. Cyber-physical building systems: a collection of materials of the seminar held in the framework of the VI International Scientific Conference “Integration, partnership and innovation in building science and education”. National Research University Moscow State University of Civil Engineering (MGSU press), 189-193. Retrieved from http://mgsu.ru/resources/izdatelskaya-deyatelnost/izdaniya/izdaniya-otkr-dostupa/
• Oliver, C. (1990). Determinants of interorganizational relationship: integration and future directions. Academy of Management Review, 15, 241-265.
• Pilyay, A.I. (2017). Dimensions and levels of information modeling building design. Online Journal „SCIENCE”. Retrieved from https://naukovedenie.ru/PDF/18TVN617.pdf
• Report of National Research University Moscow „State University of Civil Engineering (MGSU)” and LLC “Konkurator”. (2016). The evaluation of the application of BIM technologies in construction. The results of a study of the effectiveness of the application of BIM technologies in Russian companies’ investment and construction projects. Retrieved from http://nopriz.ru/upload/iblock/2cc/4.7_bim_rf_otchot.pdf
• Talapov, V.V. (2015). Basics of BIM: Introduction to Information Building Modeling. Moscow, Russia: DMK Press.
• The program „Digital Economy of the Russian Federation”. (2017). Retrieved from http://static.government.ru/media/files/9gFM4FHj4PsB79I5v7yLVuPgu4bvR7M0.pdf
• World Development Report 2016: Digital Dividends. (2016). Retrieved from https://www.worldbank.org/en/publication/wdr2016
• Zieliński, M. (2013). Supplier-Customer Relationship Performance in construction industry. Retrieved from https://www.researchgate.net/publication/26720-8704_SupplierCustomer_Relationship_Performance_in_construction_industry