ORIGINAL ARTICLE
Utilisation Of Laser Scanning Technology And Digital Images For Measurements Of Industrial Objects - A Case Study
 
More details
Hide details
1
Faculty of Geodesy and Cartography, Warsaw University of Technology, Warsaw, Poland
 
 
Online publication date: 2015-08-06
 
 
Publication date: 2015-07-01
 
 
Reports on Geodesy and Geoinformatics 2015;98:28-38
 
KEYWORDS
ABSTRACT
Projection of a complicated geometry of industrial objects is the complex issue, which requires properly planned and prepared measurements. Such objects must be accurately inventoried, but their complicated nature often makes the access and the visibility of their entire surface very difficult. Documentation of measurements is often prepared in the form of sketches, plans or maps, which are amended with photographic documentation. The objective of this paper is to test the possibilities to apply laser scanning and the network of digital images for inventory and monitoring of technical conditions of industrial objects. Processing of a precise documentation acquired basing on terrestrial laser scanning data or dense points clouds generated from digital images still causes many difficulties and problems. Although data processing algorithms have been intensively developed with respect to generation of high resolution orthoimages or precise vector drawings, the existing problems are still connected with limitations related to imperfections of both techniques of measurements.
REFERENCES (9)
1.
Brazetti, L., & Scaioni M. (2009). Automatic orientation of image sequences for 3D object reconstruction: first results of a method integrating photogrammetric and computer vision algorithms. International Archives of Photogram., Remote Sensing, Volume XXXVIII-5/W1.
 
2.
Elseberg J., Borrmann D., Schauer J., Nuchter A., Koriath D., and Rautenberg U., (2014) A sensor skid for precise 3d modeling of production lines. ISPRS Annals of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Volume II-5, 117-122.
 
3.
Gergont, K., Kierys, E. (2009). 3D - Scanning Technology in Forensic Science and Road Crash Investigations (MSc Diploma Thesisi), Kraków.
 
4.
Luhmann T., Robson S., Kyle S., Boehm J. (2013). Close – Range Photogrammetry and 3D Imaging, De Gruyter Textbook.
 
5.
Markiewicz J., & Turek A. (2014) The application of multitemporal aerial images in research on changes in spatial management. Przegląd Geodezyjny, 3-9.
 
6.
Mousa W. (2014). Integration of Digital Photogrammetry and Terrestrial Laser Scanning for Cultural Heritage Data Recording, Verlag der Bayerischen Akademie der Wissenschaftenin Kommission beim Verlag S. H. Beck.
 
7.
Radziejewski R., (2013), Inventory of an industrial object with the use of terrestrial laser scanning, (MSc Diploma thesis), Warsaw University of Technology.
 
8.
Radziejewski R., Markiewicz J., & Zawieska D.(2014) Diversity of photogrammetric approaches for multi-purpose applications, GeoConference on informatics, geoinformatics and remote sensing conference proceedings, Volume II Geodesy and Mine Surveying, 43-48.
 
9.
Vosselman, G., Maas, H-G., (2012) Airborne and Terrestrial Laser Scanning, Whitles Publishing.
 
eISSN:2391-8152
ISSN:2391-8365
Journals System - logo
Scroll to top