Affiliation:
1. UNESCO Research Lab, Department of Architecture, Built Environment and Construction Engineering (DABC), Politecnico di Milano, Mantova Campus, Piazza C. d’Arco, 3, 46100 Mantova, Italy
Abstract
Ruins, marked by decay and abandonment, present challenges for digital documentation due to their varied conditions and remote locations. Surveying inaccessible ruins demands innovative approaches for safety and accuracy. Drones with high-resolution cameras enable the detailed aerial inspection and imaging of these inaccessible areas. This study investigated how surveying technologies, particularly Unmanned Aerial Vehicles (UAVs), are used to document inaccessible ruins. Integration with Real-Time Kinematic (RTK) technologies allows direct georeferencing in photogrammetric processing. A case study of the Castle of Terracorpo in Italy was used to demonstrate UAV-only surveying feasibility in inaccessible environments, testing two different scenarios. The first scenario involved the use of a DJI Matrice 300 RTK coupled with the D-RTK2 base station to survey the Castle; both direct and indirect georeferencing were exploited and compared through the photogrammetric process. This first scenario confirmed that this approach can lead to a centimetre-level accuracy (about three times the GSD value for indirect georeferencing and seven times the GSD value for direct georeferencing exploting RTK). The second scenario testing the integration of data from drones at varying resolutions enabled the comprehensive coverage of ruinous structures. In this case, the photogrammetric survey performed with the dji Mavic 3 Cine drone (indirect georeferencing) was integrated with the photogrammetric survey performed with the dji Matrice 300 RTK drone (direct georeferencing). This scenario showed that GCPs extracted from a direct georeferencing photogrammetric survey could be successfully used to georeference and integrate other drone data. However, challenges persist in surveying underground or enclosed spaces that are inaccessible to UAVs. Future research will explore integrating robotic LiDAR survey systems and advanced data fusion techniques to enhance documentation.
Reference46 articles.
1. Ruins: Between Past and Present, Between Culture and Nature;Frydryczak;Eidos A J. Philos. Cult.,2023
2. An Interpretive Ruination Model of the Built Heritage in Inner Areas: The Case Study of the Neighbourhood Granfonte in Leonforte;Sanzaro;Heritage,2023
3. Campana, S., Sordini, M., and Remondino, F. (October, January 30). Integration of geomatics techniques for the digital documentation of heritage areas. Proceedings of the 1st International EARSeL Workshop, CNR, Rome, Italy.
4. A comparison between terrestrial laser scanning and hand-held mobile mapping for the documentation of built heritage;Conti;Int. Arch. Photogramm. Remote Sens. Spat. Inf. Sci.,2024
5. Mobile mapping system for historic built heritage and GIS integration: A challenging case study;Treccani;Appl. Geomat.,2024