Digital methods of real estate asset lifecycle management

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Contemporary scientific research and practical experience in the field of investment and construction projects management prove advisability of planning management processes, including key directions such as scope, time and cost management throughout the lifecycle of a real estate asset. Under conditions of construction industry integration into digital environment and active search for innovative and high-tech ways of development, an urgent issue is to select effective digital methods and tools that correspond to each phase of real estate asset lifecycle and ensure interests of each participant of investment and construction project. The aim of the article is to investigate the digital methods of real estate asset lifecycle management. Through methods of analysis and systematization, the authors of the article have identified that internationally known software producers as well as the scientific community and some representatives of construction industry acknowledge the effectiveness of the currently relevant information modelling technologies (BIM); however, full implementation of BIM technologies in Russia is mainly restrained by low interest from most participants of investment and construction projects. Therefore, by applying methods of comparative analysis and statistical assessments, reported effects of BIM implementation, according to the international experience, have been compared with actual results received by Russian companies, which actively use information modelling technologies. In addition, systematization of modern digital methods and tools for real estate assets management in correspondence with aims of each phase of their lifecycle has been carried out within the framework of the research. As a result, factors for encouragement of BIM implementation based on the principles of public-private partnership have been formulated and, in conclusion, respective stimulation measures proposed.

Eroshkin, S. Yu., Kallaur, G. Yu., & Papikyan, L. M. (2017). Integrated use of BIM technologies for project management (Integrirovannoye ispolzovaniye BIM-tekhnologiy v tselyakh upravleniya proyektami). Vestnik MGTU STANKIN, 4 (43), 125-130.

GOST R, (2016). Building information models. Information delivery manual. Methodology and format (GOST R 57310-2016, ISO 29481-1:2010). Retrieved from

GOST R, (2016). Guidelines for knowledge libraries and object libraries (GOST R 57309-2016, ISO 16354:2013). Retrieved from

GOST R, (2017). Building information modeling. General principles for the development of building and constructions information modeling standards (GOST R 57563-2017/ISO/TS 12911:2012). Retrieved from

GOST R, (2017). Model of construction works data organization. The structure of project information management (GOST R ISO 22263-2017). Retrieved from

Kallaur, G. Yu. (2018). Obosnovanie investitsii v tekhnologii informatsionnogo modelirovaniia. Ekonomika stroitelstva, 1 (49), 27-38.

Korol, M. (2015). Britantsy soobshchili miru, chto takoe BIM urovnia 3: eto - Digital Built Britain. Retrieved from

McGraw Hill Construction. Smart Market Report “The Business Value of BIM for Construction in Major Global Markets: How contractors around the world are driving innovation with building information modeling”. Retrieved from

Moscow State University of Civil Engineering (National Research University). (2016). Otsenka primeneniia BIM-tekhnologii v stroitelstve. Rezultaty issledovaniia effektivnosti primeneniia BIM-tekhnologii v investitsionno-stroitelnykh proektakh rossiiskikh kompanii

Novokovskii K. (2015). Tak li effektivny BIM tekhnologii proektirovaniya, kak ob etom govoriat? Retrieved from

Pravitelstvo Rossiiskoi Federatsii. (2011). Strategiia innovatsionnogo razvitiia RF na period do 2020 goda № 2227-r. Retrieved from

Primenenie BIM-tekhnologii pri stroitelstve Dongdaemun Design Plaza - krupneishego v mire zdaniia nepravilnoi formy (2018). Tekhnologii Stroitelstva. Retrieved from

Rising to new heights with BIM. Shanghai Tower owner champions BIM for design and construction of one of the world’s tallest (and greenest) buildings. Retrieved from Autodesk:

Sukhorukov, A. I., Eroshkin, S. Y., Kallaur, G. Y., and Papikyan, L. M. (2018). Tekhnologii informatsionnogo modelirovaniia vsekh etapov zhiznennogo tsikla tekhnicheskogo obieekta. Vestnik mashinostroyeniia, 4, 84-86.

The Ministry of Construction, Housing and Communal Services of The Russian Federation. (2014). Prikaz “Ob utverzhdenii Plana poetapnogo vnedreniya tekhnologiy informatsionnogo modelirovaniya v oblasti promyshlennogo i grazhdanskogo stroitelstva” № 926 ot 29 dekabrya 2014 goda. Retrieved from

The Ministry of Construction, Housing and Communal Services of The Russian Federation. (2017). A series of Codes “Building Information Modeling”. Retrieved from

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