Identyfikatory
Warianty tytułu
Implementation of the BIM methodology for reconstruction of documentation of the historical building facility on the example of the Embassy of Norway in Russian Federation
Języki publikacji
Abstrakty
Artykuł ma na celu prezentację wykorzystania metodyki BIM (z ang. Building Information Modelling), czyli budowania modelu informacyjnego, w procesie inwentaryzacji oraz tworzenia wirtualnej bazy danych dla zabytkowego budynku mieszczącego placówkę Ambasady Norwegii w Moskwie. Autor skupił się na narzędziach oraz metodach służących odtworzeniu precyzyjnej dokumentacji architektoniczno-budowlanej, mogącej służyć jako podstawa ewentualnych prac projektowych oraz w procesie eksploatacji i zarządzania obiektem. Zaprezentowany przykład pokazuje bardzo prostą implementację precyzyjnych metod pomiarowych na bazie narzędzi LIDAR oraz modelowania bazy danych w oparciu o metodykę BIM, przy użyciu oprogramowania Autodesk Revit.
The article aims to present the use of BIM methodology (Building Information Modelling), in the process of inventorying and creating a virtual database for a historical building housing the Embassy of Norway in Moscow. The author has focused on tools and methods serving to reconstruct precise architectural and constructional documentation, which may be useful as a base for possible designing works as well as in the process of exploitation and management of the facility. The presented example shows a very simple implementation of precise measurement methods based on LIDAR tools and database modeling based on BIM methodology, using the Autodesk Revit software.
Czasopismo
Rocznik
Tom
Strony
12--18
Opis fizyczny
Bibliogr. 23 poz., il.
Twórcy
autor
- Fundacja Europejskie Centrum Certyfikacji BIM
Bibliografia
- [1] Kensek K. M., Noble D., BIM in current and future practices, 2014
- [2] Fai S., Graham K., Duckworth T., Wood N., Attar R., Building Information Modelling and Heritage Documentation, Proc. 23rd Int. Symp. Int. Sci. Comm. Doc. Cult. Herit., 2011, str. 12–16
- [3] Oreni D., Brumana R., Georgopoulos A., Cuca B., Hbim for Conservation and Management of Built Heritage: Towards a Library of Vaults and Wooden Bean Floors, ISPRS Ann. Photogramm. Remote Sens. Spat. Inf. Sci., tom II-5/W1, 9/2013, str. 215–221
- [4] Dore and C., Murphy M., Integration of Historic Building Information Modeling ( HBIM ) and 3D GIS for Recording and Managing Cultural Heritage Sites, Proc. 2012 18th Int. Conf. Virtual Syst. Multimedia, VSMM 2012 Virtual Syst. Inf. Soc., 2012, str. 369–376
- [5] Baik A., From point cloud to Jeddah Heritage BIM Nasif Historical House – case study, Digit. Appl. Archaeol. Cult. Herit., tom 4, 2/2017, str. 1–18
- [6] Tapponi O., Kassem M., Kelly G., Dawood N., White B., Renovation of Heritage Assets using BIM: a Case Study of the Durham Cathedral, Proc. 32nd CIB W78 Conf. 2015, 27th-29th Oct. 2015, Eindhoven, Netherlands, tom 2010, 2015
- [7] Khodeir L. M., Aly D., Tarek S., Integrating HBIM (Heritage Building Information Modeling) Tools in the Application of Sustainable Retrofitting of Heritage Buildings in Egypt, Procedia Environ. Sci., tom 34, 2016, str. 258–270
- [8] Gigliarelli E., Calcerano F., Cessari L., Heritage Bim, Numerical Simulation and Decision Support Systems: An Integrated Approach for Historical Buildings Retrofit, Energy Procedia, tom 133, 2017, str. 135–144
- [9] Hutchison D., Mitchell J. C., Progress in Cultural Heritage Preservation, 2012
- [10] Murphy S., McGovern M., Pavia E., Historic building information modelling (HBIM), Struct. Surv., tom 27, 4/2009, str. 311–327
- [11] Letellier R., Recording and information management for the conservation of heritage places: guiding principles, tom Guiding pr., 2007
- [12] Barazzetti L., Parametric as-built model generation of complex shapes from point clouds, Adv. Eng. Informatics, tom 30, 3/2016, str. 298–311
- [13] Garagnani S., Manferdini A. M., Parametric accuracy: Building information modeling process applied to the cultural heritage preservation, Int. Arch. Photogramm. Remote Sens. Spat. Inf. Sci. – ISPRS Arch., tom 40, 5W1/2013, str. 87–92
- [14] MGI-Reinventing-construction-A-route-to-higher-productivity-Full-report, 2/2017
- [15] Agrafiotis P., Lampropoulos K., Georgopoulos A., Moropoulou A., 3D modelling the invisible using ground penetrating radar, Int. Arch. Photogramm. Remote Sens. Spat. Inf. Sci. – ISPRS Arch., tom 42, 2W3/2017, str. 33–37
- [16] Seiffert U., Abeynayake C., Jain L. C., Tran M. D., Detection of Targets in Characteristic GPR Sensor Data Using Machine Learning Techniques, tom 2013, 1/2013
- [17] Holzer D., The BIM manager’s handbook, 2016
- [18] National BIM Standard. [Online]. Available: https://www.nationalbimstandard.org/
- [19] C. R. K. & Leica Company, Leica Cyclone Basic User Manual, 11/2015
- [20] Kersten T. P., Tschirschwitz F., Deggim S., Development of a virtual museum including a 4D presentation of building history in virtual reality, Int. Arch. Photogramm. Remote Sens. Spat. Inf. Sci. – ISPRS Arch., tom 42, 2W3/2017, str. 361–367
- [21] Revit Live/Immersive Architectural Visualization/Autodesk. [Online]. Available: https://www.autodesk.com/products/revit-live/overview. [Accessed: 11-Mar-2018]
- [22] EnscapeTM: Architectural real-time rendering plugin for Revit, SketchUp &, Rhino. [Online]. Available: https://enscape3d.com/. [Accessed: 11-Mar-2018]
- [23] Beautiful Renders Within Reach/Lumion. [Online]. Available: https://lumion.com/. [Accessed: 11-Mar-2018]
Uwagi
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-de97b839-9612-4531-9f65-669763b1c190