Accuracy investigations of hand-held scanning systems using different dumbbell artefacts





Faculty/Professorship: Digital Technologies in Heritage Conservation  
Author(s): Kalinowski, Michael; Hindmarch, John ; Luhmann, Thomas
Title of the Journal: The International Archives of the Photogrammetry, Remote Sensing and Spatial Information Sciences
ISSN: 2194-9034, 1682-1750
Conference: XXIV ISPRS Congress (2022 edition), 6-11 June 2022, Nice, France, Nice, France
Publisher Information: Kaltenburg-Lindau : Copernicus Publications
Year of publication: 2022
Volume: XLIII-B2-2022
Pages: 401-407
Language(s): English
DOI: 10.5194/isprs-archives-XLIII-B2-2022-401-2022
Abstract: 
The use of hand-held 3D scanning systems is becoming increasingly widespread in both the industrial and cultural sectors, and, particularly in the cultural sector, the systems are sometimes used by non-specialists. At the same time, the surface of cultural objects has a wide variety of textural properties. It is therefore of great importance that the measuring systems meet qualitative standards. For this purpose, the Creaform GO!Scan, Artec Eva and Artec Spider are compared in absolute terms of accuracy using a calibrated textured spherical dumbbell in accordance with the VDI 2634 guidelines. Both GO!Scan (sphere spacing error SD = 0.03 mm) and Eva (SD = 0.03 mm) meet the expected accuracy, while the Spider (SD = 0.3 mm) does not. Furthermore, a relative comparison is made with dumbbell bars with different texture properties. The probing error form (maximum range of residuals to the best-fit sphere) was able to reveal the effects of different texture properties on surface noise for both the Artec Eva and the Artec Spider. The Spider had larger margins for the metal sphere, while the Eva had larger margins for the textured sphere. In the case of the GO!Scan, texture properties did not matter. Furthermore, the scanners were tested on a cultural reference object. The quality standards of the VDI examination were achieved on average for every scan system, but this cannot be guaranteed for complex object areas.
GND Keywords: Denkmalkunde; Kulturelles Erbe; 3D-Scanner
Keywords: hand-held 3D scanning, VDI 2634, accuracy investigations, cultural heritage, texture properties
DDC Classification: 720 Architecture  
RVK Classification: LH 60360   
Peer Reviewed: Ja
International Distribution: Ja
Open Access Journal: Ja
Type: Conferenceobject
URI: https://fis.uni-bamberg.de/handle/uniba/54447
Release Date: 8. July 2022