Benchmarking Range-Based and Image-Based Techniques for Digitizing a Glazed Earthenware Frieze

Tucci, Grazia; Bonora, Valentina; Conti, Alessandro; Fiorini, Lidia

doi:10.5194/isprsannals-ii-5-w3-315-2015

Cited by 8 publications

(7 citation statements)

References 15 publications

(15 reference statements)

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“…As mentioned, digitizing earthenware was the main issue in this project. On the basis of its extensive experience in 3D laser scanning and photogrammetry recording (Grussenmeyer et al, 2016), the INSA Photogrammetry and geomatics Group team saw the key to success in the control of light conditions (Tucci et al 2015) and the homogenization of light to avoid specular reflections in photogrammetry (Nicolae et al, 2014). Due to technical reasons (large glass walls on both ends of the Winter Garden), it was impossible to regulate or homogenize the amount of light entering the sensor, but the camera chosen (Canon EOS 5DSR) allowed us to take images in RAW format and reprocess them afterwards.…”

Section: State Of the Artmentioning

confidence: 99%

3d Indoor Documentation of the Winter Garden in the Earthenware Museum at Sarreguemines (France)

Girardet

Grussenmeyer

Junior³

et al. 2019

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

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<p><strong>Abstract.</strong> This paper presents the work accomplished in order to digitize and model the Winter Garden of the Earthenware Museum at Sarreguemines (Moselle, France). The objectives were to create a digital archive of this cultural heritage place and to find appropriate ways of promoting it. Topographic, photogrammetric and lasergrammetric methods were used to model the Winter Garden. Different virtual reality tools enabled us to spotlight some of its parts and to offer an immersive visualization. Several challenges had to be taken up during this project. We first had to find out the best processing workflow to model earthenware, which is a highly reflecting material. Image processing was also needed for aesthetic reasons and we finally had to find methods to reduce the size of the models.</p>

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Section: State Of the Artmentioning

confidence: 99%

3d Indoor Documentation of the Winter Garden in the Earthenware Museum at Sarreguemines (France)

Girardet

Grussenmeyer

Junior³

et al. 2019

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

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“…to draw a deterioration map or to detect the points needing restoration. These applications have already been performed by the GeCO Laboratory for the model of the Ratto delle Sabine in the Galleria dell'Accademia in Florence (Tucci et al 2015a) and for the ceramic decorations of the Ospedale del Ceppo in Pistoia (Tucci et al 2015b). …”

Section: Mapping Of Deterioration and Restoration Workmentioning

confidence: 99%

Laser Scanning and Modelling of Barely Visible Features: The Survey of the Grotto of the Animals at the Villa of Castello (Florence)

Tesi¹,

Tucci

Bonora

et al. 2017

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

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ABSTRACT:The deep fusion of natural and artificial elements typical of Italian Renaissance gardens is particularly evident in the park of Villa di Castello and in the Grotto of the Animals, also called Grotto of the Flood. The soil slope is the essential element of a huge underlying hydraulic machine and it is the result of extensive earthworks which led to the construction of the big retaining wall limiting the grotto and the adjacent fountains. Hence, this grotto represents only the visible part of a mechanism running all around it. It is formed by a single chamber vaulted and covered with sponge-like stones, as well as decorations made of pebbles and shells. The space is divided into three wings, with big marble basins at their end. Over them there are reliefs of animals made of different stones and marbles. Animals recur also in the compositions of fish and shellfish decorating the side basins and in the bronze birds currently kept in the Museo del Bargello. The name "Grotto of the Flood" comes from the water feature that characterised this place: visitors were surprised by tens of jets hidden among the stones in the vault and in the floor. To obtain this effect, the whole grotto is surrounded by multi-storey tunnels, hiding the hydraulic system and people activating the mechanisms. Research agreements were drawn up between the Special Superintendence for the Historical, Artistic and Ethnoanthropological Heritage, the Florence museums group and the GeCO Lab, for the realization of the survey presented in this paper. The task of the GeCO Lab was thus identifying the best solutions to check the spatial relations between the grotto and the area above, as well as the geometric and functional connections between the building and the ancient hydraulic system, composed by pipes and nozzles concealed between the stones. Besides, the overall survey was intended as a documentation of the on-going restoration work.

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“…Indeed, with the arrival of digital cameras, the field of CV individuated algorithms that permit automatic orientation of pairs, triads, or sequences of images, developing the already known technique of "structure from motion" (SFM) (Ullman, 1979) which, integrated with the algorithms of dense image matching, allows for the production of three-dimensional models of the object surveyed in a short time (Barrile et al, 2015;Fonstad, Dietrich, Courville, Jensen, & Carbonneau, 2013). Recently, in addition, many have asked about the limits and potential of the techniques of image-based modeling (Caroti, Martinez-Espejo Zaragoza, & Piemonte, 2015;Di Paola, Inzerillo, & Santagati, 2013), many have compared and integrated SFM technique with spherical photogrammetry (D'Annibale, 2011) and other authors have investigated by comparing the results obtained with the Light Detection and Ranging (LIDAR) technique (Nex & Rinaudo, 2011) or with terrestrial laser scanning (Kersten & Lindstaedt, 2012;Skarlatos & Kiparissi, 2012;Teza, Pesci, & Ninfo, 2016;Tucci, Bonora, Conti, & Fiorini, 2015;Zhang, Schneider, & Straub, 2016); still others have arrived at the conclusion that the integration of terrestrial photogrammetry and UAV (Pueschel, Sauerbier, & Eisenbeiss, 2008), or photogrammetry and LIDAR (Franceschi, Martinelli, Gislimberti, Rizzi, & Massironi, 2015) can be a good solution in the case of a survey of complex structures. Currently research on the applicability of SFM is fervent; in literature many types of applications is reported, ranging form environmental applications to safety applications, only to cite some (Javernick, Brasington, & Caruso, 2014;Javernick, Hicks, Measures, Caruso, & Brasington, 2015;Johnson et al, 2014;Marteau, Vericat, Gibbins, Batalla, & Green, 2017; Ryan et al, 2015;Westoby, Brasington, Glasser, Hambrey, & Reynolds, 2012).…”

Section: Introductionmentioning

confidence: 99%

The survey of the Basilica di Collemaggio in L’Aquila with a system of terrestrial imaging and most proven techniques

Baiocchi

Giammarresi

Ialongo

et al. 2017

European Journal of Remote Sensing

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The proposed job concerns the evaluation of a series of surveys carried out in the context of a campaign of studies begun in 2015 with the objective of comparing the accuracies obtainable with the systems of terrestrial imaging, compared to unmanned aerial vehicle imaging and laser scanner survey. In particular, the authors want to test the applicability of a system of imaging rover (IR), an innovative terrestrial imaging system, that consists of a multi-camera with integrated global positioning system (GPS)/global navigation satellite system (GNSS) receiver, that is very recently released technique, and only a few literature references exist on the specific subject. In detail, the IR consists of a total of 12 calibrated cameras – seven “panorama” and five downward-looking – providing complete site documentation that can potentially be used to make photogrammetric measurements. The data acquired in this experimentation were then elaborated with various software packages in order to obtain point clouds and a three-dimensional model in different cases, and a comparison of the various results obtained was carried out. Following, the case study of the Basilica di Santa Maria di Collemaggio in L’Aquila is reported; Collemaggio is an UNESCO world heritage site; it was damaged during the seismic event of 2009, and its restoration is still in progress

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Benchmarking Range-Based and Image-Based Techniques for Digitizing a Glazed Earthenware Frieze

Cited by 8 publications

References 15 publications

3d Indoor Documentation of the Winter Garden in the Earthenware Museum at Sarreguemines (France)

3d Indoor Documentation of the Winter Garden in the Earthenware Museum at Sarreguemines (France)

Laser Scanning and Modelling of Barely Visible Features: The Survey of the Grotto of the Animals at the Villa of Castello (Florence)

The survey of the Basilica di Collemaggio in L’Aquila with a system of terrestrial imaging and most proven techniques

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