2023
DOI: 10.3390/rs15092386
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Three-Dimensional Modeling and Non-Invasive Diagnosis of a Huge and Complex Heritage Building: The Patriarchal Basilica of Santa Maria Assunta in Aquileia (Udine, Italy)

Abstract: Three-dimensional modeling and non-invasive diagnosis are fundamental prerequisites for planning reliable assessments of the seismic vulnerability, renovation and conservation of heritage buildings. In the case of multi-layered, huge and complex ancient constructions, various problems can be encountered in the early design phases of interventions, among which there is often a lack of an adequate building documentation. Such issues include drawings that are without a metric scale, not detailed, not updated or n… Show more

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Cited by 10 publications
(5 citation statements)
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“…In the case of multispectral imaging, as presented in Section 3.3.1, a direct comparison is enabled between CRP surface colorimetric/metric data and TIR, NIR and/or UV surface data, which might be useful to assess the position and quantitative extent of non-visible anomalies, such as material inhomogeneity [129,130,134], energy losses [131], cracks and mechanical damage [132,136], moist areas [133,135] and weathering patterns [53,60]. Differently, in the case of multisensory data collection, as reported in Section 3.3.2, an indirect comparison is enabled between CRP surface colorimetric/metric data and measurements of constructional discontinuities and pathologies across the components; this comparison is detected as variations in radar reflection from underground structures [143][144][145]147,148]; moist areas [142,146]; or variations in ultrasonic velocities in walls [148,150,151], columns [92,152,153] and pillars [154]. In a few applications, the employment of CRP models to accurately set up onsite tests and equipment is also documented [155][156][157].…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…In the case of multispectral imaging, as presented in Section 3.3.1, a direct comparison is enabled between CRP surface colorimetric/metric data and TIR, NIR and/or UV surface data, which might be useful to assess the position and quantitative extent of non-visible anomalies, such as material inhomogeneity [129,130,134], energy losses [131], cracks and mechanical damage [132,136], moist areas [133,135] and weathering patterns [53,60]. Differently, in the case of multisensory data collection, as reported in Section 3.3.2, an indirect comparison is enabled between CRP surface colorimetric/metric data and measurements of constructional discontinuities and pathologies across the components; this comparison is detected as variations in radar reflection from underground structures [143][144][145]147,148]; moist areas [142,146]; or variations in ultrasonic velocities in walls [148,150,151], columns [92,152,153] and pillars [154]. In a few applications, the employment of CRP models to accurately set up onsite tests and equipment is also documented [155][156][157].…”
Section: Discussionmentioning
confidence: 99%
“…This correlation is also a result of the work by Chiabrando et al [143], where GPR was used to detect the presence of underground structures around a masonry tower in North-West Italy through superimposition of radar profiles and horizontal orthoimages. Similarly, within a comprehensive investigation of a basilica in North-East Italy [144], the integrated visualization and analysis of GPR and Digital Elevation Models (DEMs) relating to the mosaics led to hypothesizing about the presence of buried structures belonging to the oldest construction phases under the investigated floors.…”
Section: Multisensory Data Collectionmentioning
confidence: 99%
“…Integrating these technologies goes beyond preservation; it opens avenues for the dissemination of cultural heritage [ 28 , 29 ]. Three-dimensional models offer immersive experiences for the public, allowing virtual exploration of every nook and cranny of the pavilion.…”
Section: Introductionmentioning
confidence: 99%
“…In close-range terrestrial photography, the size of the object and the camera-to-object distance are both less than 100 m [4]. Several papers related to close-range photogrammetry have been dedicated to various application fields such as industrial engineering [5], cultural heritage documentation [6,7,8,9,10], and geomorphology [11,12,13,14,15]. Close-range terrestrial digital photogrammetry is widely applied in rock mass discontinuity characterization [16].…”
Section: Introductionmentioning
confidence: 99%