Vision metrology and Structure from Motion for archaeological heritage 3D reconstruction: a Case Study of various Roman mosaics

Brutto, Mauro Lo; Dardanelli, Gino

doi:10.21014/acta_imeko.v6i3.458

Cited by 16 publications

(14 citation statements)

References 25 publications

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“…Starting from the Landsat missions, it was possible to detect surface water body changes in the last three decades for the entire globe (Pekel et al, 2016, Aguilar et al, 2010. In addition, the increasing availability of multispectral images from satellite, airplane, UAV and terrestrial, combined with recent developments in automatic image processing algorithms, are making possible more and more complex applications in the environmental and surveying field in general (Palazzo et al, 2012;Mentashi et al, 2018;Lo Brutto & Dardanelli, 2017;Baiocchi et al, 2010;Baiocchi et al, 2014). In order to extract water bodies from different remote sensing images, various methods have been developed.…”

Section: Introductionmentioning

confidence: 99%

Using Optical Satellite and Aerial Imagery for Automatic Coastline Mapping

Costantino¹,

Pepe²,

Dardanelli³

et al. 2020

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The continuous availability and rapid accessibility to multispectral data from satellite platforms within the Copernicus Programme represents a great opportunity for users in different fields of applications as: agriculture, observation of coastal zones, monitoring land cover change. The aim of this paper is to identify a suitable method to map coastline using Sentinel-2 optical satellite image. The method provides the use of two indexes developed in remote sensing field for water environment: NDWI (Normalized difference water index) and MNDWI (Modified Normalized difference water index). Starting from the construction of maps of these indexes and, identifying appropriate threshold values, it has been possible to extrapolate the coastline. The coastlines derived from the use of the NDWI and MNDWI index were compared with a coastline obtained from the photointerpretation of a very high resolution orthophoto obtained through photogrammetric techniques. The results show that it is possible to map the coastline automatically and quickly with an intrinsic accuracy close to the geometric resolution bands of Sentinel-2 satellite images.

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Section: Introductionmentioning

confidence: 99%

Using Optical Satellite and Aerial Imagery for Automatic Coastline Mapping

Costantino¹,

Pepe²,

Dardanelli³

et al. 2020

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“…Three-dimensional (3D) visualization of cultural heritage monuments using low-cost cameras has been widely studied in the past (Bolognesi et al, 2015;Caradonna et al, 2018;Verhoeven, 2011). Several studies used either the self-calibration or pre-calibration and calculated the precision.…”

Section: Discussion -Conclusionmentioning

confidence: 99%

“…The self-calibration and pre-calibration method of a low-cost camera with lenses of different focal lengths has been implemented in many studies (Brutto & Dardanelli, 2017;Zacharek et al, 2017) in order to estimate the internal orientation of the camera. The calibration was tested using different software packages, concluding that the most accurate deployed software program was Image Master (Fryskowska et al, 2016).…”

Section: Introductionmentioning

confidence: 99%

Digital camera calibration for cultural heritage documentation: the case study of a mass digitization project of religious monuments in Cyprus

Evagorou

Mettas

Αγαπίου

et al. 2020

European Journal of Remote Sensing

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The paper summarizes the methodology followed, to evaluate the accuracy of different digitization methods of ecclesiastical monuments in 3D computer vision form and stresses the importance of photographic equipment calibration. In this study, a set of images were taken using the CANON EOS M5 digital camera, while the internal calibration parametershorizontal and vertical focal length (fx, fy), principal point coordinates (x0, y0), radial distortion coefficients (K1, K2, K3), tangential distortion coefficients (P1, P2) and the affinity and the shear terms (b1, b2) were estimated. These parameters were calculated using different software applications and then analyzed. For the calibration procedure, 3D texture models were built with the Agisoft commercial software based on: (a) the aforementioned calibration parameters and (b) the self-calibration process. The overall accuracy (Root Mean Square-RMS) between these models, by comparing known geo-referenced ground-control-points (GCP) is presented through the Cloud Compare software. The results indicate that the internal calibration parameters of the digital camera used for documentation purposes are essential and should be systematically implemented for documentation purposes.

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“…Thus, no high-quality textures using the RGB (Red, Green & Blue) values acquired by TLS can be created -despite it is possible to map RGB values of the point cloud-without high-resolution images from an external camera. Otherwise, photogrammetry produces highly detailed photographic textures and reliable ortho-images, enabling deepest analyses especially for detailed surfaces, like a mosaic or a fresco (Lo Brutto & Dardanelli, 2017;López-Martínez, Calvo-Bartolomé, & García-Bueno, 2019). Due to these differences, photogrammetry and TLS are often integrated to produce a unique detailed 3D model of an archaeological building or site (Grussenmeyer et al, 2011;Fiorillo, Jimenez, Remondino, & Barba, 2013).…”

Section: Introductionmentioning

confidence: 99%

3D survey for the archaeological study and virtual reconstruction of the “Sanctuary of Isis” in the ancient Lilybaeum (Italy)

Fazio¹,

Brutto²

2020

Virtual archaeol. rev.

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In recent years, the use of three-dimensional (3D) models in cultural and archaeological heritage for documentation and dissemination purposes has increased. New geomatics technologies have significantly reduced the time spent on fieldwork surveys and data processing. The archaeological remains can be documented and reconstructed in a digital 3D environment thanks to the new 3D survey technologies. Furthermore, the products generated by modern surveying technologies can be reconstructed in a virtual environment on effective archaeological bases and hypotheses coming from a detailed 3D data analysis. However, the choice of technologies that should be used to get the best results for different archaeological remains and how to use 3D models to improve knowledge and dissemination to a wider audience are open questions.This paper deals with the use of terrestrial laser scanners and photogrammetric surveys for the virtual reconstruction of an archaeological site. In particular, the work describes the study for the 3D documentation and virtual reconstruction of the “Sanctuary of Isis” in Lilybaeum, the ancient city of Marsala (southern Italy). The "Sanctuary of Isis" is the only Roman sacred building known in this archaeological area. Based on the survey data, it has been possible to recreate the original volumes of the ancient building and rebuild the two best-preserved floors –a geometric mosaic and an opus spicatum– for a first digital reconstruction of the archaeological complex in a 3D environment.

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Vision metrology and Structure from Motion for archaeological heritage 3D reconstruction: a Case Study of various Roman mosaics

Cited by 16 publications

References 25 publications

Using Optical Satellite and Aerial Imagery for Automatic Coastline Mapping

Using Optical Satellite and Aerial Imagery for Automatic Coastline Mapping

Digital camera calibration for cultural heritage documentation: the case study of a mass digitization project of religious monuments in Cyprus

3D survey for the archaeological study and virtual reconstruction of the “Sanctuary of Isis” in the ancient Lilybaeum (Italy)

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