Javascript must be enabled to continue!
3D Multispectral Imaging for Cultural Heritage Preservation: The Case Study of a Wooden Sculpture of the Museo Egizio di Torino
View through CrossRef
Digitalization techniques, such as photogrammetry (PG), are attracting the interest of experts in the cultural heritage field, as they enable the creation of three-dimensional virtual replicas of historical artifacts with 2D digital images. Indeed, PG allows for acquiring data regarding the overall appearance of an artifact, its geometry, and its texture. Furthermore, among several image-based techniques exploited for the conservation of works of art, multispectral imaging (MSI) finds great application in the study of the materials of historical items, taking advantage of the different responses of materials when exposed to specific wavelengths. Despite their great usefulness, PG and MSI are often used as separate tools. Integrating radiometric and geometrical data can notably expand the information carried by a 3D model. Therefore, this paper presents a novel research methodology that enables the acquisition of multispectral 3D models, combining the outcomes of PG and MSI (Visible (VIS), Ultraviolet-induced Visible Luminescence (UVL), Ultraviolet-Reflected (UVR), and Ultraviolet-Reflected False Color (UVR-FC) imaging) in a single coordinate system, using an affordable tunable set-up and open-source software. The approach has been employed for the study of two wooden artifacts from the Museo Egizio di Torino to investigate the materials present on the surface and provide information that could support the design of suitable conservation treatments.
Title: 3D Multispectral Imaging for Cultural Heritage Preservation: The Case Study of a Wooden Sculpture of the Museo Egizio di Torino
Description:
Digitalization techniques, such as photogrammetry (PG), are attracting the interest of experts in the cultural heritage field, as they enable the creation of three-dimensional virtual replicas of historical artifacts with 2D digital images.
Indeed, PG allows for acquiring data regarding the overall appearance of an artifact, its geometry, and its texture.
Furthermore, among several image-based techniques exploited for the conservation of works of art, multispectral imaging (MSI) finds great application in the study of the materials of historical items, taking advantage of the different responses of materials when exposed to specific wavelengths.
Despite their great usefulness, PG and MSI are often used as separate tools.
Integrating radiometric and geometrical data can notably expand the information carried by a 3D model.
Therefore, this paper presents a novel research methodology that enables the acquisition of multispectral 3D models, combining the outcomes of PG and MSI (Visible (VIS), Ultraviolet-induced Visible Luminescence (UVL), Ultraviolet-Reflected (UVR), and Ultraviolet-Reflected False Color (UVR-FC) imaging) in a single coordinate system, using an affordable tunable set-up and open-source software.
The approach has been employed for the study of two wooden artifacts from the Museo Egizio di Torino to investigate the materials present on the surface and provide information that could support the design of suitable conservation treatments.
Related Results
Recent advances in applications of multimodal ultrasound-guided photoacoustic imaging technology
Recent advances in applications of multimodal ultrasound-guided photoacoustic imaging technology
AbstractPhotoacoustic imaging (PAI) is often performed simultaneously with ultrasound imaging and can provide functional and cellular information regarding the tissues in the anato...
The Medieval Glass Mosaic of S. Agnese fuori le mura in Rome: Multispectral Imaging for Preliminary Identification of Original Tesserae
The Medieval Glass Mosaic of S. Agnese fuori le mura in Rome: Multispectral Imaging for Preliminary Identification of Original Tesserae
The mosaic in the apse of the Church of S. Agnese fuori le mura in Rome represents one of the most important examples of the wall mosaics of the Roman Middle Ages. Although it is a...
Cultural heritage preservation by using blockchain technologies
Cultural heritage preservation by using blockchain technologies
AbstractUbiquitous digitization enables promising options for cultural heritage preservation. Therefore, a new approach is presented that considers deployment scenarios by linking ...
Information Resources Preservation: Bottlenecks and their Effect on Library Information Services
Information Resources Preservation: Bottlenecks and their Effect on Library Information Services
Abstract
This study investigated the factors hindering information resources preservation and the extent to which information services are affected in academic libra...
Comparative analysis of information tendency and application features for projection mapping technologies at cultural heritage sites
Comparative analysis of information tendency and application features for projection mapping technologies at cultural heritage sites
AbstractWith the rapid development of interactive technologies using projection mapping (PJM), these digital technologies have introduced new interpretative possibilities for the p...
The Riverside Roads of Culture as a Tool for the Development of Aitoloakarnania
The Riverside Roads of Culture as a Tool for the Development of Aitoloakarnania
Cultural routes are a well-established development tool to highlight and promote a region’s cultural and environmental reserve, as well as having a positive impact on a region’s so...
Exploring the Impediments to Digitization and Digital Preservation of Cultural Heritage Resources: A Selective Review
Exploring the Impediments to Digitization and Digital Preservation of Cultural Heritage Resources: A Selective Review
AbstractThis paper presents a careful review of studies underlining the impediments in digitization and digital preservation of cultural heritage resources faced by library profess...
Non-invasive imaging and spectroscopy techniques for identifying historical pigments: a case study of Iranian manuscripts from the Qajar era
Non-invasive imaging and spectroscopy techniques for identifying historical pigments: a case study of Iranian manuscripts from the Qajar era
AbstractIn recent years, the expansion of non-invasive methods has been a trend in identifying historical pigments. Accordingly, this study aimed to identify the pigments used in t...