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Combination of terrestrial laserscanning, UAV and close range photogrammertry for 3D reconstruction of complex churches in Georgia
Luhmann, T.; Chizhova, Maria; Gorkovchuk, D.; u. a. (2019): Combination of terrestrial laserscanning, UAV and close range photogrammertry for 3D reconstruction of complex churches in Georgia, in: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences, Katlenburg-Lindau: Copernicus Publications, Jg. XLII-2/W11, S. 753–761, doi: 10.5194/isprs-archives-XLII-2-W11-753-2019.
Faculty/Chair:
Author:
Title of the Journal:
The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
ISSN:
2194-9034
Publisher Information:
Year of publication:
2019
Volume:
XLII-2/W11
Pages:
Language:
English
Abstract:
In September 2018, photogrammetric images and terrestrial laser scans were carried out as part of a measurement campaign for the three-dimensional recording of several historic churches in Tbilisi (Georgia). The aim was the complete spatial reconstruction with a spatial resolution and accuracy of approx. 1cm under partly difficult external conditions, which required the use of different measurement techniques.
The local measurement data were collected by two laser scanning campaigns (Leica BLK360 and Faro Focus 3D X330), two UAV flights and two terrestrial image sets. The photogrammetric point clouds were calculated with the SfM programs AgiSoft PhotoScan and RealityCapture taking into account the control points from the Faro laser scan. The mean residual errors from the registrations or photogrammetric evaluations are 4-12mm, depending on the selected software. The best completeness and quality of the resulting 3D model was achieved by using laserscan data and images simultaneously.
The local measurement data were collected by two laser scanning campaigns (Leica BLK360 and Faro Focus 3D X330), two UAV flights and two terrestrial image sets. The photogrammetric point clouds were calculated with the SfM programs AgiSoft PhotoScan and RealityCapture taking into account the control points from the Faro laser scan. The mean residual errors from the registrations or photogrammetric evaluations are 4-12mm, depending on the selected software. The best completeness and quality of the resulting 3D model was achieved by using laserscan data and images simultaneously.
GND Keywords: ; ; ; ;
Tiflis
Kirche
Denkmalpflege
3D-Scanner
Fotometrie
Keywords: ; ; ; ;
laserscanning,
photogrammetry
data fusion
3D reconstruction
cultural heritage
DDC Classification:
RVK Classification:
Type:
Article
Activation date:
February 25, 2022
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https://fis.uni-bamberg.de/handle/uniba/53341