The use of Terrestrial Laser Scanning for the purposes of preparing technical documentation in BIM technology
Łukasz Uchański
Czerski Trade Polska Sp. z o.o.; Al. Niepodległości 219, 02-087; Warszawa; (Poland)
Krzysztof Karsznia
Krzysztof_Karsznia@sggw.plDepartment of Civil Engineering; Faculty of Civil and Environmental Engineering; Warsaw University of Life Sciences – SGGW; (Poland)
https://orcid.org/0000-0002-0262-6651
Abstract
Building Information Modelling (BIM) is becoming an increasingly popular solution used both for investment and for reverse engineering aimed at restoring of the original documentation of existing facilities. The reconstruction of an object including its full design properties in an interactive 3D environment makes it possible to carry out structural (including SMH – structural health monitoring) and strength analyses, as well as to provide the effi cient facility management (setting out essential parameters and conducting necessary repairs). This paper aims to assess the laser scanning performed by using an advanced pulse data-capturing device for the development of complex BIM documentation in the Water Centre Laboratory of Warsaw University of Life Sciences – SGGW. Obtained point clouds have been used to build the model for the needs of reverse engineering. Moreover, the authors evaluated the possibility of using a particular type of laser scanner to develop and update complex BIM documentation in the process of facility management.
Keywords:
Terrestrial Laser Scanning, BIM, inventory works, Laser Scanning, point cloud, 3D modelReferences
[2] BIM Plus, (2017) http://www.bimplus.co.uk/technology/laser-scanning/Stonex X300, http://www.stonexpositioning.com/index.php/en/products/laser-scanners/x300-detail
[3] Borkowski A.S. Importowanie mapy zasadniczej do modelu BIM, Budownictwo i Architektura 16(3) (2017) 045–051, DOI: 10.24358/Bud-Arch_17_163_05.
[4] Gleason D. Laser Scanning for an Integrated BIM, https://www.tekla.com/de/trimble-5d/laser–scanning-for-bim.pdf, 10.2013
[5] Hardin B., McCool D. BIM and construction management – proven tools, methods and workflows, John Wiley & Sons Inc. (2015), Indianapolis.
[6] Karsznia K., Współczesna technologia skanowania laserowego 3D w monitorowaniu przemieszczeń i deformacji obiektów mostowych, Mosty 1 (2014) 24–27
[7] Kensek K.M., Noble D.E. Building Information Modeling in current and future practice, B., McCool D., BIM and construction management – proven tools, methods and workfl ows, John Wiley & Sons Inc. (2014), Hoboken, New Jersey.
[8] SGGW, (2017), http://w3.cem.sggw.pl/centrum-wodne.
[9] Shanbari H.A., Blinn N.M., Issa R.R. Laser scanning technology and BIM in construction management education, (2016), http://www.itcon.org/papers/2016_14.content.09623.pdf.
[10] Stonex X300, User Guide v.5, (2014), http://www.stonexpositioning.com.
[11] Szeląg M., Szewczak A., Brzyski P. BIM in general construction, Monografi e Politechniki Lubelskiej (2017), ISBN: 978-83-7947-255-0.
[12] Tomana A. BIM – innowacyjna technologia w budownictwie – podstawy, standardy, narzędzia, Wydawnictwo PWB Media Zdziebłowski Sp. J., (2016), Kraków.
[13] Uchański Ł., Karsznia K. Pomiar inwentaryzacyjny obiektów przemysłowych przy użyciu naziemnego skaningu laserowego w aspekcie wdrażania technologii BIM, Acta Scientarum Polonorum – Architectura, 16(4) (2017) 71–82.
[14] Uchański Ł., Soerensen L. Technologia naziemnego skaningu laserowego w zagadnieniach inżynierii odwrotnej oraz analiz procesów dynamicznych, Archiwum Fotogrametrii i Teledetekcji 21 (2010) 415–424, ISBN 978-83-61576-13-6.
[15] Uchański J., Falkowski P., Uchański Ł. Tradycja i nowoczesność w inwentaryzacji obiektów architektonicznych ze szczególnym uwzględnieniem obiektów zabytkowych, Labor Omnia Vincit Almamer, (2010), Warszawa, ISBN 978-83-60197-96-7, str. 137–167.
Authors
Łukasz UchańskiCzerski Trade Polska Sp. z o.o.; Al. Niepodległości 219, 02-087; Warszawa; Poland
Authors
Krzysztof KarszniaKrzysztof_Karsznia@sggw.pl
Department of Civil Engineering; Faculty of Civil and Environmental Engineering; Warsaw University of Life Sciences – SGGW; Poland
https://orcid.org/0000-0002-0262-6651
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