ORIGINAL ARTICLE
Integration of Models of Building Interiors with Cadastral Data
 
More details
Hide details
1
Department of Cartography, Faculty of Geodesy and Cartography, Warsaw University of Technology, Warsaw, Poland
 
2
Department of Cadastre and Land Management, Faculty of Geodesy and Cartography, Warsaw University of Technology, Warsaw, Poland
 
 
Submission date: 2017-09-05
 
 
Acceptance date: 2017-12-14
 
 
Online publication date: 2018-01-23
 
 
Publication date: 2017-12-20
 
 
Reports on Geodesy and Geoinformatics 2017;104:91-102
 
KEYWORDS
ABSTRACT
Demands for applications which use models of building interiors is growing and highly diversified. Those models are applied at the stage of designing and construction of a building, in applications which support real estate management, in navigation and marketing systems and, finally, in crisis management and security systems. They are created on the basis of different data: architectural and construction plans, both, in the analogue form, as well as CAD files, BIM data files, by means of laser scanning (TLS) and conventional surveys. In this context the issue of searching solutions which would integrate the existing models and lead to elimination of data redundancy is becoming more important. The authors analysed the possible input- of cadastral data (legal extent of premises) at the stage of the creation and updating different models of building’s interiors. The paper focuses on one issue - the way of describing the geometry of premises basing on the most popular source data, i.e. architectural and construction plans. However, the described rules may be considered as universal and also may be applied in practice concerned may be used during the process of creation and updating indoor models based on BIM dataset or laser scanning clouds
REFERENCES (17)
1.
Aien A., Rajabifard A, Kalantari M., Williamson I. & Shojaei D. (2014): Development of XML Schemas for Implementation of a 3D Cadastral Data Model, 4th International Workshop on 3D Cadastres 9-11 November 2014, Dubai, United Arab Emirates.
 
2.
El-Mekawy M., Paasch J. & Paulsson J. (2014): Integration of 3D Cadastre, 3D Property Formation and BIM in Sweden 4th International Workshop on 3D Cadastres, 9-11 November 2014, Dubai, United Arab Emirates.
 
3.
García J.M.O., Soriano L.I.V., Velasco A. & Varés M. (2011): 3D Modeling and Representation of the Spanish Cadastral Cartography 2nd International Workshop on 3D Cadastres, 16-18 November 2011, Delft, the Netherlands.
 
4.
Gofmanas R., Grigas J., Ramanauskas R. & Treciokas K. (2006): Land administration in Lithuania, FIG Commission 7 Annual Meeting 2006, Slovenia, Bled,.
 
5.
Isikdag U., Zlatanova S. & Underwood J. (2013) A BIM-oriented model for supporting indoor navigation requirements. Computers, Environment and Urban Systems, vol 41, no. 9, pp.112-123.
 
6.
Karabin M (2013): A concept of a model approach to the 3D cadastre in Poland D.Sc. Thesis, Warsaw University of Technology - Scientific Work - Geodesy Series, Number of Book 51 (116 pages), Oficyna Wydawnicza Politechniki Warszawskiej, Warsaw, May 2013.
 
7.
Karabin M. & Pędzich P. (2017): The issue of connecting 3D building models based on architectural documentation with the state coordinate system, in: Informatics, Geoinformatics and Remote Sensing. Issue 22, Conference Proceedings, Volume 17. Geodesy and Mine Surveying, International Multidisciplinary Scientific GeoConference & EXPO SGEM, vol. 17, no. 22, 2017, ISBN 978-619-7408-02-7, pp. 665-672.
 
8.
Karabin M., Olszewski R., Gotlib D., Bakuła K. & Fijałkowska A., (2017): The new methods of visualisation of the cadastral data in Poland - FIG Working Week 2017 “Surveying the world of tomorrow - From digitalisation to augmented reality Helsinki, Finland 29 May - 2 June 2017.
 
9.
Kasperavicius R. (2006): Real property administration system establishment in Lithuania Expert Meeting on Good Governance in Land Tenure and Administration 25 - 27 September, 2006 at FAO, Rome, Italy.
 
10.
Kasperavicius R. (2007): Integrated Land Information Service in Lithuania Expert Meeting on Good Governance in Land Tenure and Administration, 26-28 September, 2007 Dublin,.
 
11.
NBIMS (2006): The National BIM Standard-United States® (NBIMS-US™), https://www.nationalbimstandar....
 
12.
Oldfield J., Oosterom P., Quak W., Veen J. & Beetz J. (2016) Can Data from BIMs be Used as Input for a 3D Cadastre?, 5th International FIG 3D Cadastre Workshop, International Federation of Surveyors (FIG), ISBN 978-87-92853-47-9. pp. 199-214.
 
13.
Rahman A.A., Hua T.C. & Oosterom P.van. (2011): Embedding 3D into Multipurpose Cadastre, FIG Working Week 2011-Bridging the Gap between Cultures, Marrakech, Morocco, 18-22 May 2011.
 
14.
Rajabifard A. (2014) 3D Cadastres and Beyond 4th International Workshop on 3D Cadastres, 9-11 November 2014, Dubai, United Arab Emirates.
 
15.
Shojaei, D., Rajabifard, A., Kalantari, M., Bishop, I. D. & Aien, A. (2014): Design and development of a web-based 3D cadastral visualisation prototype. International Journal of Digital Earth. DOI: 10.1080/17538947.2014.902512.
 
16.
Tsiliakou E. & Dimopoulou E. (2011): Adjusting the 2D Hellenic Cadastre to the Complex 3D World - Possibilities and Constraints 2nd International Workshop on 3D Cadastres, 16-18 November 2011, Delft, the Netherlands.
 
17.
Weise, M., Liebich, T., See, R., Bazjanac, V. & Laine, T. (2009). IFC Implementation Guide: Space Boundaries for Thermal Analysis US Government Services Administration (GSA).
 
eISSN:2391-8152
ISSN:2391-8365
Journals System - logo
Scroll to top