An Overview of the Historical Retrofitting Interventions on Churches in Central Italy

Cianchino, Giorgia; Masciotta, Maria Giovanna; Verazzo, Clara; Brando, Giuseppe

doi:10.3390/app13010040

Cited by 11 publications

(1 citation statement)

References 71 publications

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“…The acquired data will be considered in the years to come as precious documentation for future interventions, especially considering that Umbria is a seismic region in which the preservation and safety of artistic heritage is always at risk due to frequent earthquakes (Giné, Ortega and Pons, 2019;Cianchino et al, 2023).…”

Section: Thermographymentioning

confidence: 99%

Multi-Sensor Analysis for Experimental Diagnostic and Monitoring Techniques at San Bevignate Templar Church in Perugia

Guarneri

Ceccarelli

Francucci

et al. 2023

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

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Abstract. In the contemporary world, human and natural calamities are challenging our capabilities to preserve heritage and develop innovative safeguard strategies that also address the requirement of sustainability for restoration purposes, still considering the connection between tradition and innovation. This work introduces non-invasive diagnostic practices that offer a new insight of the built environment by studying two different elements of the same architecture of San Bevignate Templar church: a thermographic mapping obtained with special post-processing procedures provided interesting information about the hidden wall pattern, while a prototypal laser scanner, called RGB-ITR, and a UAV survey supplied new insights on the precious paintings. The assessment of the masonry quality constitutes an a priori condition for a reliable estimation of its seismic vulnerability and for the planning of effective yet conservative interventions. The access keys to 'sustainability' therefore consist in the improvement of these contactless investigations, which can be performed both in passive conditions, in the case of thermography surveys, and in active ones, such as for the RGB-ITR scanner, as necessary substitutes for destructive or partial-destructive tests. The research achieved promising results for the characterisation of the architectural structure and the paintings, with the aim of a long-term monitoring of the structure and the decorative apparatus of a monumental heritage located in an area vulnerable to seismic and environmental events.

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Section: Thermographymentioning

confidence: 99%