Raffaele Argiolas scite author profile

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

Cuccu

2019

Abstract. The implementation of new technologies often leads research towards experimentation with new methodological approaches. The BIM process applied in cultural heritage is increasingly consolidating its practices, expanding its potential even in the field of archaeological research. Integrating archaeological data into BIM models has clear benefits but, due to the complexity of the involved elements, archaeological case studies can fit effectively into the BIM process only with the creation of semantic-aware libraries implementing dedicated objects. Cultural heritage can advantage of BIM-based knowledge management only integrating approaches and tools with different characteristics from those commonly used in BIM workflows. In the phase of the geometric modeling process, following that of the survey process and preparatory to the subsequent information modeling process, when the detected geometries are not easily traceable to libraries of pre-compiled objects, an alternative to the so-called "Scan to BIM" local modeling can be represented by algorithmic modeling. The paper, focusing on the geometric modelling phase of the HBIM process, presents first results and prospective tasks of an ongoing research project on the last architectural phase of the colonnade of a multilayered temple in the Antas valley in Sardinia (Italy), affected by imposing works of anastylosis and restoration.

Analytical Representation of Architectural Built Heritage. A Sketch-to-Bim Approach

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

Bagnolo

Cera

et al. 2022

Abstract. HBIM methodology is increasingly used for the management of all aspects of architectural heritage, from survey and analysis to conservation, management and restoration issues.Application of HBIM are the so-called Scan-to-BIM processes in which the artifact is surveyed with digital techniques of laser scanning and photogrammetry. These techniques result in point clouds, the basis of the subsequent process of informative and geometric modelling of the artifact. The resulting "smart models" are composed of parametric objects rich in information that can be easily updated at any time.The proposed methodology aims at integrating a study of architectural orders, whose results become preparatory to the subsequent phases of survey and modeling, to the classic Scan-to-BIM workflows. In particular, in the modeling these results have allowed a more targeted choice of techniques used.The method has been applied to the atrium of the former Jesuit College of Santa Croce in Cagliari, which today hosts one of the seats of the Faculty of Engineering and Architecture of the University of Cagliari; in particular, the atrium of the east body of the former Jesuit College, designed by the Piedmontese architect Antonio Felice De Vincenti, has been modelled.

Digital Survey and Algorithmic Modeling in Hbim. Towards a Library of Complex Construction Elements

Bagnolo

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

Cuccu

2019

Abstract. In the study of built heritage, the introduction of BIM models provides the advantage of a set of data that can be shared between different platforms. Despite the continuous progress in research, the modeling processes of complex construction elements, typical of historical architectures, always require a certain attention and care that involve considerable investments in terms of both resources and time. In this paper we present the first results of an ongoing research aimed at considering possible methods that can allow a simplification of the modeling processes of elements of historical architectures in the BIM environment. In particular, the research aims to explore the possibilities offered by the algorithmic modeling of complex construction elements. In the study of historical architecture, an enough recurring theme concerns those elements that can be traced back to the principles of architectural orders. In the survey of historical architecture, a quite recurring case study concerns those elements or parts of building ruled by the principles of architectural orders. One of the first elements taken into consideration was that of the column that, in its articulation in base, shaft and capital, offers three different levels of complexity of the modeling process very suitable for the research path. Starting with a collection of data acquired from digital photogrammetric modeling, we considered a initial set of different case studies that allowed us to conduct a first working hypothesis by embracing a quite wide range of possible variations starting from a basic column.

From Lidar Data Towards Hbim for Structural Evaluation

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

Cazzani

Reccia

et al. 2019

Abstract. In HBIM processes, the extraction of geometric components from 3D point clouds data can sometimes be a complex process. The so-called <q>Scan to BIM</q> process has been widely utilized: deriving 3D models from point clouds often a local modelling of geometric components is necessary. This leads in most cases to use external modelling tools or complex local modelling processes. In both cases, we often get a model that cannot be reused for other items belonging to the same category, contravening the BIM philosophy. Vaulted systems are a typical example of complex elements that we can find in historical architecture. The paper presents the first results of an ongoing research on geometric modelling and structural evaluation of masonry ribbed vaults. An algorithm is developed to generate a NURBS surface of masonry vaults that, starting from the data extrapolated from the point cloud, allows to obtain an HBIM family. The research aims to overcome the inability to reference to standardised objects in local modelling of historical architecture elements. Directed to a standardization in the geometric modelling process of 3D laser scan data, the developed workflow is a possible alternative to commonly used workflows. Particular attention is focused on a case study of stellar vaults, a special class of masonry ribbed vaults whose three-dimensional geometry features a star-shaped projection on the horizontal plane. The work is carried out to verify that this family can be used for the structural analysis of stellar masonry vaults.

Area and Power Modeling Methodologies for Networks-on-Chip

Meloni

Carta

et al. 2006