ABSTRACT:The use of terrestrial laser scanners in architectural survey applications has become more and more common. Row data complexity, as given by scanner restitution, leads to several problems about design and 3D-modelling starting from Point Clouds. In this context we present a study on architectural sections and mathematical algorithms for their shape reconstruction, according to known or definite geometrical rules, focusing on shapes of different complexity. Each step of the semi-automatic algorithm has been developed using Mathematica software and CAD, integrating both programs in order to reconstruct a geometrical CAD model of the object. Our study is motivated by the fact that, for architectural survey, most of three dimensional modelling procedures concerning point clouds produce superabundant, but often unnecessary, information and are also very expensive in terms of cpu time using more and more sophisticated hardware and software. On the contrary, it's important to simplify/decimate the point cloud in order to recognize a particular form out of some definite geometric/architectonic shapes. Such a process consists of several steps: first the definition of plane sections and characterization of their architecture; secondly the construction of a continuous plane curve depending on some parameters. In the third step we allow the selection on the curve of some nodal points with given specific characteristics (symmetry, tangency conditions, shadowing exclusion, corners, … ). The fourth and last step is the construction of a best shape defined by the comparison with an abacus of known geometrical elements, such as moulding profiles, leading to a precise architectonical section. The algorithms have been developed and tested in very different situations and are presented in a case study of complex geometries such as some mouldings profiles in the Church of San Carlo alle Quattro Fontane.
3D survey and advanced modeling in the study of the Forts of Rome: the Forte Monte AntenneIn the studies the authors are conducting on the entrenched camp of Rome, 3D surveys and digital models are used as means to understand constructions with the aim of developing restoration and re-utilization projects. For Forte Monte Antenne (1882-1891), the authors have carried out systematic studies of the formal and structural aspects. The data acquired from a direct survey and with laser scanner, drone and photogrammetry, integrated with data obtained from iconographic and bibliographic sources, were integrated in the creation of a digital model, which made the classification of the various elements in a structured database possible, including the verification of the relationship among the parts at varying levels, and the system of aeration ducts. Convective motions and the thermo-hygrometric and visual comfort within some of the environments, as well as thermographic surveys of the walls were conducted. The BIM model was integrated, therefore, with a MEP model. The hypothesis of restoration and possible adaptation to new functions cannot disregard the analysis of those parameters which complete the picture of environmental quality and thus of the effective potentials in repurposing of the structure.
This paper shows the experimental activities carried out by a joint research group on the case study of the Basilica di San Nicola in Carcere in Rome, concerning the integration of different 3D reconstruction technologies in the Cultural Heritage domain. Dataset obtained from laser scanner and photogrammetry, were processed on a remote platform based on the powerful ENEA computational infrastructure, in order to analyse the dense clouds, to compare them and to improve the quality of the data. This paper also shows the efforts to upgrade this platform and the optimisation of the processes.
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