Studia i Prace WNEiZ US

Previously: Zeszyty Naukowe Uniwersytetu Szczecińskiego. Studia i Prace WNEiZ

ISSN: 2450-7733     eISSN: 2300-4096    OAI    DOI: 10.18276/sip.2016.45/1-12
CC BY-SA   Open Access 

Issue archive / nr 45/1 2016
Wykorzystanie bezzałogowych statków powietrznych w zarządzaniu obiektami wielkopowierzchniowymi
(Using of unmanned aerial vehicles (uavs) in the management of large buildings)

Authors: Anna Banaszek
Uniwersytet Warmińsko-Mazurski w Olsztynie

Sebastian Banaszek
Dron House S.A., Warszawa

Anna Cellmer
Politechnika Koszalińska

Aleksander Żarnowski
Politechnika Koszalińska
Keywords: UAV management inspection roof Facility Management BIM
Data publikacji całości:2016
Page range:14 (151-164)
Cited-by (Crossref) ?:

Abstract

Unmanned Aerial Vehicle (UAV) for the technical inspection of buildings. This article discusses the legal and technical conditions of UAV periodic inspection and the current research on the possibilities of using digital images obtained by UAVs in real estate management. It presents the results of an experiment on the use of the quadrocopter equipped with high-resolution camera for the visual assessment of the rooftop of a particular type of large property: an office building. The digital images obtained from the Unmanned Aerial Vehicle used to the inspection of the technical condition are presented as examples. The technology is based on modern methods of acquiring image data, with the latest developments in automated mapping techniques, create new opportunities in real estate management – in particular the sectors of Facility Management and Building Information Modelling.
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Bibliography

1.Eschmann, C., Kuo, C.M., Kuo, C.-H., Boller, C. (2012). Unmanned Aircraft Systems for Remote Building Inspection and Monitoring. 6th European Workshop on Structural Health Monitoring – Th.2.B.1, 1–8. Pobrane z: http://www.ndt.net/article/ewshm2012/papers/th2b1.pdf (15.04.2016).
2.From UAV to BIM – How UAV Data Fits into the Scan to BIM Work Flow (2016). Pobrane z: http://www.remoteaerialsurveys.co.uk/blog/from-uav-to-bim-how-uav-data-fits-intothe-scan-to-bim-work-flow/22 (16.05.2016).
3.Hallermann, N., Morgenthal, G., Rodehorst, V. (2015). Unmanned Aerial Systems (UAS) – Case Studies of Vision Based Monitoring of Ageing Structures. International Symposium Non-Destructive Testing in Civil Engineering (NDT-CE) September 15–17, 2015, Berlin, Germany. Pobrane z: http://www.ndt.net/article/ndtce2015/papers/169_hallermann_norman.pdf (10.03.2016).
4.Krawczyk, J.M., Mazur, A.M., Sasin, T., Stokłosa, A.W. (2015) Infrared Building Inspection with Unmanned Aerial Vehicles. Transactions of the Institute of Aviation, 3 (240), 32–48. DOI: 10.5604/05096669.1194965.
5.López-Fernández, L., Lagüela, S., Picón, I., González-Aguilera, D. (2015). Large Scale Automatic Analysis and Classification of Roof Surfaces for the Installation of Solar Panels Using a Multi-Sensor Aerial Platform. Remote Sens, 7, 11226–11248.
6.Vacanas, Y., Themistocleous, K., Agapiou, A., Hadjimitsis, D. (2015). Building Information Modelling (BIM) and Unmanned Aerial Vehicle (UAV) Technologies in Infrastructure Construction Project Management and Delay and Disruption Analysis. Proc. SPIE 9535, Third International Conference on Remote Sensing and Geoinformation of the Environment (RSCy2015), 95350C (June 19, 2015). DOI: 10.1117/12.2192723.
7.Zhang, J., Jung, J., Sohn, G., Cohen, M. (2015). Thermal Infrared Inspection of Roof Insulation Using Unmanned Aerial Vehicles. The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, XL-1/W4, 381–386.
8.Zink, J. (red.). (2015). Unmanned Aerial Vehicle Bridge Inspection Demonstration Project Final Report. St. Paul, Minnesota: Minnesota Department of Transportation Research Services & Library.