Marcello Balzani scite author profile

ABSTRACT:Documentation of cultural assets through improved acquisition processes for advanced 3D modelling is one of the main challenges to be faced in order to address, through digital representation, advanced analysis on shape, appearance and conservation condition of cultural heritage. 3D modelling can originate new avenues in the way tangible cultural heritage is studied, visualized, curated, displayed and monitored, improving key features such as analysis and visualization of material degradation and state of conservation. An applied research focused on the analysis of surface specifications and material properties by means of 3D laser scanner survey has been developed within the project of Digital Preservation of FAUUSP building, Faculdade de Arquitetura e Urbanismo da Universidade de São Paulo, Brazil. The integrated 3D survey has been performed by the DIAPReM Center of the Department of Architecture of the University of Ferrara in cooperation with the FAUUSP. The 3D survey has allowed the realization of a point cloud model of the external surfaces, as the basis to investigate in detail the formal characteristics, geometric textures and surface features. The digital geometric model was also the basis for processing the intensity values acquired by laser scanning instrument; this method of analysis was an essential integration to the macroscopic investigations in order to manage additional information related to surface characteristics displayable on the point cloud.

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Digital Memory and Integrated Data Capturing: Innovations for an Inclusive Cultural Heritage in Europe Through 3D Semantic Modelling

Maietti

Giulio

Balzani

et al. 2017

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Starting from different applications in 3D integrated laser scanner survey of heritage buildings and sites, this chapter will illustrate advanced procedures in 3D surveying and modelling of complex buildings, focusing on the ongoing European project “INCEPTION—Inclusive Cultural Heritage in Europe through 3D semantic modelling”, funded by the EC within the Programme Horizon 2020. The project methodology proposes the enhancement of efficiency in 3D data capturing methodologies, procedures and devices beyond current standards, especially as regards their suitability and aptitude for tangible cultural assets, characterized by nonconventional features, locations and geometries. Within the overall documentation process, the semantic enrichment of 3D models will enable an inclusive approach for accessing and understanding European cultural heritage through digital documentation

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3D visual technology applied for the reconstruction of a Paleolithic workshop

Zangrossi

Delpiano

Cocilova

et al. 2019

Journal of Archaeological Science: Reports

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Reshaping the Coliseum in Rome: An Integrated Data Capture and Modeling Method at Heritage Sites

Gaiani¹,

Balzani

Uccelli

2000

Computer Graphics Forum

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The paper describes the process of building Internet‐transmittable, 3‐D digital virtual models of ancient heritage monuments from on‐site data, focusing especially on 3‐D dimensional data acquisition techniques and color processing methods. Section 1 considers project goals and the attendant problems; Section 2 provides a brief summary of state‐of‐the‐art experience and the technologies adopted by the Authors; Section 3 illustrates the key features of the 3‐D color data acquisition methods used as well as the shape and color processing pipeline; Section 4 describes the specific study conducted on single elements and faades of the Coliseum in Rome, while Section 6 outlines future work.

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