Methodology of creating augmented reality of the information model of the building of the Institute of Geodesy of Lviv Polytechnic National University
Students Name: Senyk Yurii Olehovych
Qualification Level: magister
Speciality: Geoinformation System and Technology
Institute: Institute of Geodesy
Mode of Study: full
Academic Year: 2020-2021 н.р.
Language of Defence: ukrainian
Abstract: Senyk Y.O., Chetverikov B.V. (supervisor). Methodology of creating augmented reality of the information model of the building of the Institute of Geodesy of Lviv Polytechnic National University. Master’s thesis. - Lviv Polytechnic National University, Lviv, 2020. Extended abstract Information modeling of buildings is a process of optimizing design and construction work. With the help of BIM-technology, an information model is built to ensure an accurate presentation of the project as a whole. Building information modeling technology is the construction of a digital 3D model of a building that contains complete information about the future object. The application of BIM-technology in the design of buildings includes the collection and comprehensive processing of various building, so that the object and related information are considered as a whole [1]. BIM can also be considered as an alternative to graphic editors used in the field of architecture, relying on new advances in computer modeling [2]. Obviously, the construction of information modeling is not limited to buildings. BIM technology includes civil infrastructures such as roads, dams, bridges, communication networks, water supply and sewerage networks and tunnels [3]. The world is actively discussing the possibility and importance of using diverse spatial models (including BIM) to implement the latest international programs related to construction. The topic of energy-efficient buildings (EeB) is one of the most relevant research priorities in the European Union (EU) [4]. In addition, speaking of the wide range of applications of the technology, despite the name of BIM, this technology can be effectively applied not only directly to specific buildings, but also to build terrain models or, more likely to implement - holistic models of entire settlements or their parts, which should have a significant impact on the development of the concept of so-called "smart cities" [5]. Despite the growing prevalence of application, some obstacles remain. Because BIM models are created manually during the planning and construction phase, they are only available for newly planned or newly constructed buildings. To apply new programs to existing buildings, methods for obtaining BIM models for built-up areas are needed [6] The object of research is the study floor plans of the building of the Institute of Geodesy coated lines of communication. The scope of research is the method of creating an information model of the building of the Institute of Geodesy. Goal of reserch is to create an Information Model of the building (BIM) of Institute of Geodesy of the Lviv Polytechnic National University. Keywords - BIM, building information model, complementary reality, cartographic data. References 1. Podmanicky P. Building information modeling software as a support tool of facility management / Podmanicky Р., Mesaros F./ Lviv Polytechnic National University Institutional Repository, Lviv, 2012. 286-289 2. Ruffle S. Architectural Design Exposed: From Computer-Aided Drawing to Computer-Aided Design, Ingatestone Hall, ngatestone, Essex, England, 1986. 385-389 3. Barazzetti L. BIM from laser scans… not just for buildings: nurbs-based parametric modeling of a medieval bridge / L. Barazzetti, F. Banfi, R. Brumana, M. Previtali, F. Roncoroni / XXIII ISPRS Congress, Prague, 2016. 51-56 4. Sebastian R. Semantic BIM and GIS modelling for energy-efficient buildings integrated in a healthcare district / R. Sebastian a, H.M. Bohms a, P. Bonsma a, P.W. van den Helm / ISPRS 8th 3DGeoInfo Conference & WG II/2 Workshop, Istanbul, 2013. 255-260 5. Kemp, BIM - the wider landscape of infrastructure, and the convergence with geospatial, 2016. Online access: https://www.thenbs.com/knowledge/bim-the-wider-landscape-of-infrastructure-and-the-convergence-with-geospatial 6. Nagel С. Conceptual requirements for the automatic recognition of building information models from uninterpreted 3D models / Nagel C., Stadler A., Kolbe T.H. / Institute for Geodesy and Geoinformation Science, Berlin, 2009. 1-8