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== Scanning Translucent Objects ==
 
== Scanning Translucent Objects ==
  
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=== men at work... ===
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Aktuelle Version vom 24. November 2014, 12:23 Uhr

AIS–OOE

AIS–St. Pölten

APART: Provenancing of Marbles

Arch. Museums in Bavaria

Bankett & Grab

CRFB

Danube Limes

Danube Limes Brand

EMS - glass analysis

Europeana - Eagle Project

FACEM

Natural Stone in Facade Cladding

FRE - Austria

FRE - International

FRE - Slovakia

Hispania Epigraphica

Historic Quarries

Marbles from Aguntum

Marbles from Carnuntum

Nachlass S. Leber

Salzburger Kulturlexikon

Saxa Loquuntur

Scanning Translucent Objects

Stone monuments from Iuvavum

Stone – Relief – Inscription

Teaching Projects

Tiles / Vindobona

Scanning Translucent Objects

Laser scanning of translucent objects – development of a coating technology for historic marble monuments

Project leader: Christian F. Uhlir
Project coordinator: Peter Dorninger, 4D-IT GmbH, Pfaffstätten, Austria

Abstract:

A terrestrial laser scanner uses laser light to measure the distance to an object and results in a 3D scan of the object. The best achievable accuracy (in the range of a few millimetres) generally depends on the surface and material properties of the object. Common materials for historic monuments are marble or alabaster. These mono-mineral, crystalline rocks are translucent to some degree, therefore the laser light reflects not only at the surface but also at a deeper level within the object. Current laser scanner systems cannot differentiate between signals reflected at the surface and internal reflections. This results in a systemic measurement error of 1 to 4 cm beyond the real surface, depending on the material of the object and the scanning system used. Scans of plates of marble with different grain-size and crystalline structure show undulating surfaces depending on individual structures. No standard procedure can be used to correct the measurement error. We developed a coating technology as a solution to this problem. The coating reflects the laser at the surface, which completely eliminates the systemic error. The coating is non-destructive and completely removable. It fulfils the regulations for monument preservation. Various suspensions, composed of mineral pigments (size 1-5 micron) and water were tested. The best measurement results were achieved using talc. A final test under real-world conditions was conducted in the park of Schönbrunn Palace, Austria. Opaque reference targets, which do not show any measurement errors themselves, were mounted on a sculpture. Scans without coating show discrepancies with up to 2 cm w.r.t. the reference targets. If object and targets are covered by talc, no such difference can be measured.


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men at work...

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