Exploiting 3d Multispectral Texture for a Better Feature
Identification for Cultural Heritage

Mathys, Aurore; Jadinon, Remy; Hallot, Pierre

doi:10.5194/isprs-annals-iv-2-w6-91-2019

Cited by 13 publications

(14 citation statements)

References 23 publications

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“…This has been approached by amateur photography, as well as professional or metrological photos acquired with specific sensors (e.g. thermal IR camera (Heitger 1991), or even a multispectral approach in (Mathys et al, 2019). (Demir & Yogeswaran, 2018) documented the individual gravestones for further geotagging using a smartphone.…”

Section: Methods For Gravestone Digitisationmentioning

confidence: 99%

Application of Multi-Criteria Decision Making for the Selection of Sensing Tools for Historical Gravestones

Pavlovskis

Chizhova

Hindmarch

et al. 2020

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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Abstract. This paper describes a feasibility study for the digitisation of gravestones, specifically Jewish gravestones, alongside an implementation of Multi-Criteria Decision Making. MCDM methods are common in other contexts, and have been used to address issues particular to design, organisation and management of large-scale construction and engineering projects. They are, however, novel in the context of cultural heritage. This paper will examine the potentials of non-contact sensor technologies (including photogrammetry via Structure from Motion, structured light scanning and terrestrial laser scanning) to record, model and archive the stones and their inscriptions. The various methodologies will be assessed against set criteria, specifically speed, resolution, readability and scalability for mass recording, from MCDM including criteria given by humanities scholars in the field of history, theology and Jewish studies.

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Section: Methods For Gravestone Digitisationmentioning

confidence: 99%

Application of Multi-Criteria Decision Making for the Selection of Sensing Tools for Historical Gravestones

Pavlovskis

Chizhova

Hindmarch

et al. 2020

Int. Arch. Photogramm. Remote Sens. Spatial Inf. Sci.

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“…The availability of high-resolution, easily operated digital cameras for NIR acquisition, in combination with SfM/MVS image-based modeling techniques, has made feasible the 3D spectral modeling for heritage applications. Contemporary research, which showed promising results [22][23][24][25][26][27][28], led us to the motivation for further experimentation.…”

Section: Near-infrared Imaging and Modelingmentioning

confidence: 99%

Image-based metric heritage modeling in the near-infrared spectrum

2020

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Digital photogrammetry and spectral imaging are widely used in heritage sciences towards the comprehensive recording, understanding, and protection of historical artifacts and artworks. The availability of consumer-grade modified cameras for spectral acquisition, as an alternative to expensive multispectral sensors and multi-sensor apparatuses, along with semi-automatic software implementations of Structure-from-Motion (SfM) and Multiple-View-Stereo (MVS) algorithms, has made more feasible than ever the combination of those techniques. In the research presented here, the authors assess image-based modeling from near-infrared (NIR) imagery acquired with modified consumergrade cameras, with applications on tangible heritage. Three-dimensional (3D) meshes, textured with the non-visible data, are produced and evaluated. Specifically, metric evaluations are conducted through extensive comparisons with models produced with image-based modeling from visible (VIS) imagery and with structured light scanning, to check the accuracy of results. Furthermore, the authors observe and discuss, how the implemented NIR modeling approach, affects the surface of the reconstructed models, and may counteract specific problems which arise from lighting conditions during VIS acquisition. The radiometric properties of the produced results are evaluated, in comparison to the respective results in the visible spectrum, on the capacity to enhance observation towards the characterization of the surface and under-surface state of preservation, and consequently, to support conservation interventions.

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“…The availability of high-resolution easily operated digital cameras for NIR acquisition, in combination with SfM/MVS image-based modeling techniques, has made feasible the 3D spectral modeling for heritage applications. Contemporary research which showed promising results [29][30][31][32] led us to the motivation for further experimentation.…”

Section: Near-infrared Imaging and Modelingmentioning

confidence: 99%

Image-based metric heritage modeling in the near-infrared spectrum

Adamopoulos

Bovero

Rinaudo

2020

Preprint

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Digital photogrammetry and spectral imaging are widely used in heritage sciences, towards the comprehensive recording, understanding, and protection of historical artefacts and artworks. The availability of consumer-grade modified cameras for spectral acquisition, as an alternative to expensive multispectral sensors and multi-sensor apparatuses, along with semi-automatic software implementations of Structure-from-Motion (SfM) and Multiple-View-Stereo (MVS) algorithms, has made more feasible than ever the combination of those techniques. In the research presented here, the authors assess image-based modeling from near-infrared (NIR) imagery acquired with modified sensors, with applications on tangible heritage. Three-dimensional meshes, textured with the non-visible data, are produced and evaluated. Specifically, metric evaluations are conducted through extensive comparisons with models produced with high-resolution visible (VIS) spectrum image-based modeling, to check accuracy of results. Furthermore, the authors observe and discuss, when the implemented NIR modeling approach, enhances the preservation of surface detail on the reconstructed spectral models or counteracts certain problems arising from lighting conditions during VIS acquisition. Radiometric properties of the produced results are evaluated on the capacity to enhance observation towards the characterization of surface and under-surface state of preservation, and consequently, to support conservation interventions, in comparison to the respective results in visible spectrum.

show abstract

Exploiting 3d Multispectral Texture for a Better Feature Identification for Cultural Heritage

Cited by 13 publications

References 23 publications

Application of Multi-Criteria Decision Making for the Selection of Sensing Tools for Historical Gravestones

Application of Multi-Criteria Decision Making for the Selection of Sensing Tools for Historical Gravestones

Image-based metric heritage modeling in the near-infrared spectrum

Image-based metric heritage modeling in the near-infrared spectrum

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