Digital investigations of the real world through point clouds and derivatives are changing how curators, cultural heritage researchers and archaeologists work and collaborate. To progressively aggregate expertise and enhance the working proficiency of all professionals, virtual reconstructions demand adapted tools to facilitate knowledge dissemination. However, to achieve this perceptive level, a point cloud must be semantically rich, retaining relevant information for the end user. In this paper, we review the state of the art of point cloud integration within archaeological applications, giving an overview of 3D technologies for heritage, digital exploitation and case studies showing the assimilation status within 3D GIS. Identified issues and new perspectives are addressed through a knowledge-based point cloud processing framework for multi-sensory data, and illustrated on mosaics and quasi-planar objects. A new acquisition, pre-processing, segmentation and ontology-based classification method on hybrid point clouds from both terrestrial laser scanning and dense image matching is proposed to enable reasoning for information extraction. Experiments in detection and semantic enrichment show promising results of 94% correct semantization. Then, we integrate the metadata in an archaeological smart point cloud data structure allowing spatio-semantic queries related to CIDOC-CRM. Finally, a WebGL prototype is presented that leads to efficient communication between actors by proposing optimal 3D data visualizations as a basis on which interaction can grow.
The collection of early medieval window glass found in the abbey of Baume-les-Messieurs (Jura, France) is exceptional because it dates to the end of the eighth century, and due to the number of fragments as well as their state of conservation. Different colours and forms have been identified. These pieces are a rare opportunity to address the glass craft, its recipes and techniques for a phase of its history that has remained little known. Analyses in PIXE-PIGE prove that, in addition to fragments from two soda glass items, the pieces are made from wood-ash glass. Most of them probably came from the same production and the raw material is present in the region. At this early stage of wood-ash glass production, the glassmakers had mastered the glass as well as the colour processes.
ABSTRACT:While virtual copies of the real world tend to be created faster than ever through point clouds and derivatives, their working proficiency by all professionals' demands adapted tools to facilitate knowledge dissemination. Digital investigations are changing the way cultural heritage researchers, archaeologists, and curators work and collaborate to progressively aggregate expertise through one common platform. In this paper, we present a web application in a WebGL framework accessible on any HTML5-compatible browser. It allows real time point cloud exploration of the mosaics in the Oratory of Germigny-des-Prés, and emphasises the ease of use as well as performances. Our reasoning engine is constructed over a semantically rich point cloud data structure, where metadata has been injected a priori. We developed a tool that directly allows semantic extraction and visualisation of pertinent information for the end users. It leads to efficient communication between actors by proposing optimal 3D viewpoints as a basis on which interactions can grow.
Different approaches
for the determination of the 87Sr/86Sr isotope
ratio of high-Rb glass are compared in
this work to assess the suitability of minimally invasive approaches
for applications on medieval stained glass (from the ancient Abbey
of Stavelot in Belgium). It was found that pneumatic nebulization
multicollector inductively coupled plasma–mass spectrometry
(PN-MC-ICP-MS) after acid digestion and chromatographic isolation
of the target analyte out of the sample matrix can still be seen as
the preferred method for the high-precision isotopic analysis of Sr
in glass with high Rb and rare-earth element (REE) concentrations.
Alternatively, the use of laser ablation (LA) for sample introduction
is a powerful technique for the direct analysis of solid samples.
However, both the high Rb/Sr ratios in the samples of interest and
the presence of REEs at sufficiently high concentrations lead to a
large bias in LA-MC-ICP-MS, which cannot be corrected for, even by
operating the MC-ICP-MS instrument at higher mass resolution and/or
using mathematical corrections. It was demonstrated that LA tandem-ICP-MS
(LA-ICP-MS/MS) using CH3F/He as the reaction gas to overcome
spectral overlap in a mass-shift approach (chemical resolution) provides
a viable alternative when (quasi) nondestructive analysis is required.
This approach relies on the monitoring of Sr+ (m/z = 86, 87, and 88) ions as the corresponding SrF+ reaction product ions (m/z = 105, 106, and
107), thus avoiding the occurrence of spectral interference. Self-evidently,
the isotope ratio precision attainable using sequential quadrupole-based
ICP-MS instrumentation (0.3% RSD) was found to be significantly worse
than that of high-precision MC-ICP-MS (0.03% RSD) with simultaneous
detection, although it was still fit for the purpose of current applications.
In addition to Sr isotopic analysis, the REE patterns and their potential
influence on the Sr isotopic composition were evaluated by LA-ICP-MS.
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