MODERN INFORMATION TECHNOLOGIES FROM THE POSITION OF OPERATION OF THE OBJECT OF CAPITAL CONSTRUCTION: FROM INFORMATION MODEL TO FM
The article examines the topical issues of information modeling technology development in the field of building maintenance management. Any investment and construction project is successful, provided their economic feasibility at each stage of its life cycle. The period of operation is the longest and the most important stage, when the investment viability of the project becomes apparent. Modern technologies of modeling open new possibilities in the evaluation of the effectiveness of the operational management of the facility. The period of operation is the longest and most important stage when the investment viability of the project becomes obvious. Modern technologies of information modeling open new opportunities in assessing the effectiveness of management of the operation of the facility. The article discusses the possibilities of application of innovative BIM-technology in real estate management. The main problems associated with the introduction of the system of information modeling of buildings at the operational stage are revealed and characterized. The article shows that thanks to BIM technology it is possible to create a single in-place and inseparable time-use information space, to collect and systematize all the data about the object, and to manage this information efficiently.
Селютина Л. Г. Современные информационные технологии с позиции эксплуатации объекта капитального строительства: от информационной модели к FM // Научный результат.
Технологии бизнеса и сервиса. – Т. 4, № 1, 2018
While nobody left any comments to this publication.
You can be first.
1. Arbuzova, E. K. (2016), “The role and importance of information systems in construction”, Proc.2th Int. Conf. Ekonomicheskoe razvitie Rossii: tendentsii, perspektivy. Economic development of Russia: trends, prospects [Economic development of Russia: trends, prospects], N. Novgorod, Russia, 5-9.
2. Bausk, A. (2016), A less optimistic view of BIM [Online], available at: http://www.isicad.ru/ru/articles.php?article_num=14092 (Accessed 10 February 2018).
3. Vasil'eva, N. V. and Selyutina, L. G. (2003), “Development of forms of reproduction of housing stock: the terminological aspect of the problem”, Izvestiya vysshikh uchebnykh zavedeniy. Stroitel'stvo, 1,
114-118.
4. Vechelkovskiy, B. E. (2015), “Analysis of key factors in the implementation of information modeling technology in buildings in modern construction”, Modern technology and technology, 1, 114-117.
5. National report on BIM-technologies in the UK [Online], available at: https://www.thenbs.com/knowledge/national-bim-report-2017 (Accessed 10 February 2018).
6. Official site of the company "Integral" [Online], available at: http://www.integral-russia.ru (Accessed 10 February 2018).
7. Selyutina, L. G. (2009), “Methodological foundations of formation and development of the system of government by the process of transformation of the housing stock of a large city”, Terra Humana, 2, 212-218.
8. Selyutina, L. G. (2009), “Formation of marketing investment decisions in the system of management of housing construction and reconstruction of residential buildings”, Vestnik INZhEKONa. Seriya: Ekonomika,
1 (28), 5-10.
9. Selyutina, L. G. (2012), Organizatsiya stroitel'nogo proizvodstva. Uchebnik. [Organization of construction production. Textbook], SPbGIEU, St.-Petersburg, Russia.
10. Selyutina, L. G. (2015), “System approach to solving problems in the field of design and construction management”, Kant,
2 (15), 71-72.
11. Systems for reliable, safe and efficient operation of buildings [Online], available at: http://www.sodislab.com/rus/about/ 2017 (accessed 10 February 2018).
12. Talapov, V. V. (2010) “Information modeling of buildings - modern understanding”, CADmaster, 4,114-121.
13. Bradley, H., Lark, R. and Dunn, S. (2016), “BIM for infrastructure: An overall review and constructor perspective”, Automation in Construction, 71(2), 139-152.
14. Eleftheriadisa, S., Mumovica, D. and Greeningb, P. (2017), “Life cycle energy efficiency in building structures: A review of current developments and future outlooks based on BIM capabilities”, Renewable and Sustainable Energy Reviews, 67, 811-825.
15. Fabris, P. (2016), New BIM guide for owners released [Online], available at: https://www.bdcnetwork.com/new-bim-guide-owners-released (Accessed 10 February 2018).
16. Gaoa, G., Liua, Y., Lina, P., Wanga, M., Gua, M. and Yonga, J. (2017), "BIM-Tag: Concept-based automatic semantic annotation of online”, BIM product resources, 31, 48-61.
17. How do you know if BIM is worth the investment for your firm [Online], available at: http://www.archdaily.com/793443/how-do-you-know-if-bim-is-worth-the-investment-for-your-firm (accessed 10 February 2018).
18. Kang, T.W. and Hong, C.H. (2015), “A study on software architecture for effective BIM/GIS-based facility management data integration”, Automation in construction, 54, 25-38.
19. Neelamkavil, J. and Ahamed, S. The Return on Investment from BIM-driven Projects in Construction [Online], available at: http://nparc.cisti-icist.nrc-cnrc.gc.ca/npsi/ctrl?action=rtdoc&an=20374669&lang (Accessed 10 February 2018).
20. Vanessa, Q. (2016), A brief history of BIM [Online], available at: http://www.archdaily.com/302490/a-brief-history-of-bim (Accessed 10 February 2018).