Abstract
Abstract. 3D documentation of cultural heritage is commonly based on image sensors or laser scanning. Respective sensors and software tools have been improved significantly in recent years concerning both automation and accuracy. Considering the documentation of huge objects with high richness in detail requires a huge effort. Close-range scanners offer the highest accuracy, however, their restricted field-of-view and their limited maximum measurement distance make numerous scanning positions necessary, thus significantly increasing the effort for data acquisition and processing. This is similar if image processing is used for aiming at mm-accuracy. For this, several hundred images are typically necessary for modelling sculptures properly. Consequently, both methods are not applicable for huge objects with an extension of several tens of meters and with a highly structured surface. Within this contribution, we describe a workflow for data acquisition and processing of the Neptune Fountain in the park area of the UNESCO World Heritage Site Schloß Schönbrunn in Vienna, Austria. Some 5 billion points were acquired from 230 scanning positions within four days using a phase-shift laser scanner. Highly automated processing of this data resulted in a triangulation model with an absolute accuracy of less than 5 mm for non-translucent materials. Problems at the translucent marble structures are analysed and a textured 3D model of a portion of the object for the application on mobile devices is presented.
Highlights
The application of image based modelling as well as close-range scanners become expensive in both, effort and costs, if huge objects are to be modelled at mm-accuracy
We demonstrated a highly automated workflow for 3D model generation of huge objects for documentation purposes
We propose the application of phase-shift laser scanner for the data acquisition
Summary
To image based acquisition configurations, numerous scanning positions are required. The application of image based modelling as well as close-range scanners become expensive in both, effort and costs, if huge objects (some 10 m in extension) are to be modelled at mm-accuracy. We investigated the applicability of phase-shift laser scanning for this task. In 2011, the Neptune Fountain in the park area of the UNESCO World Heritage Site Schloß Schönbrunn in Vienna, Austria, has been scanned using a Faro Photon 120 scanner (www.faro.com). In this contribution, we present the workflow developed for this task. The results are discussed, considering both economical aspects and the achievable accuracy
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