Your search keyword '"Sandro Moretti"' showing total 4 results

1. Digital landform reconstruction using old and recent open access digital aerial photos

Author

Matteo Del Soldato, Luis Jordá Bordehore, Roberto Tomás, Adrián Riquelme, Miguel Cano, Sandro Moretti, Universidad de Alicante. Departamento de Ingeniería Civil, and Ingeniería del Terreno y sus Estructuras (InTerEs)

Subjects

geography, geography.geographical_feature_category, Aerial photos, 010504 meteorology & atmospheric sciences, business.industry, Landform, 3D reconstruction, Point cloud, Terrain, Cloud computing, Excavation, 010502 geochemistry & geophysics, 01 natural sciences, Ingeniería del Terreno, Photogrammetry, Anthropogenic change detection, Remote sensing (archaeology), SfM, business, Cartography, Geology, 0105 earth and related environmental sciences, Earth-Surface Processes

Abstract

Technological progress in remote sensing has enabled digital representation of terrain through new techniques (e.g. digital photogrammetry) and instruments (e.g. 3D laser scanners). However, the use of old aerial images remains important in geosciences to reconstruct past landforms and detect long-term topographic changes. Administrations have recently expressed growing interest in sharing photogrammetric datasets on public repositories, providing opportunities to exploit these resources and detect natural and anthropogenic topographic changes. The SfM-MVS photogrammetric technique was applied to scanned historical black and white aerial photos of the Serra de Fontcalent (Alicante, Spain), as well as to recent high-quality digital aerial photos. Ground control points (GCPs) extracted from a LiDAR-derived three-dimensional point cloud were used to georeference the results with non-linear deformations. Two point clouds obtained with SfM-MVS were compared with the LiDAR-derived reference point cloud. Based on the result, the quality of the models was analysed through the comparison of the stages on stable areas, i.e., lands where no variations were detected, and active areas, with quarries, new infrastructures, fillings, excavations or new buildings. This study also indicates that errors are higher for old aerial photos (up to 5 m on average) than recent digital photos (up to 0.5 m). The application of SfM-MVS to open access data generated 3D models that enhance the geomorphological analysis, compared to stereophotogrammetry, and effectively detected activities in quarries and building of landfills. This work was partially funded by the University of Alicante, Spain, under Projects vigrob-157 GRE14-04, and GRE15-19; the University of Florence Earth Science Department, Italy; the Spanish Ministry of Economy and Competitiveness (MINECO), Spain, and EU FEDER, under Projects TIN2014-55413-C2-2-P and TEC2017-85244-C2-1-P and the Spanish Ministry of Education, Culture and Sport, Spain, under project PSX17/00439.

Published

2019

2. Integration between ground based and satellite SAR data in landslide mapping: The San Fratello case study

Author

Nicola Casagli, William Frodella, Riccardo Fanti, Chiara Del Ventisette, Sandro Moretti, Giovanni Gigli, Federica Bardi, Andrea Ciampalini, Silvia Bianchini, and Giuseppe Basile

Subjects

Landslide mapping, Ground deformation, Ground-based radar, PSI, SAR data integration, Satellite interferometry, Earth-Surface Processes, Landslide, Boundary (real estate), Displacement mapping, Interferometry, 13. Climate action, Remote sensing (archaeology), Interferometric synthetic aperture radar, Satellite, Satellite imagery, Geology, Seismology

Abstract

The potential use of the integration of PSI (Persistent Scatterer Interferometry) and GB-InSAR (Ground-based Synthetic Aperture Radar Interferometry) for landslide hazard mitigation was evaluated for mapping and monitoring activities of the San Fratello landslide (Sicily, Italy). Intense and exceptional rainfall events are the main factors that triggered several slope movements in the study area, which is susceptible to landslides, because of its steep slopes and silty–clayey sedimentary cover. In the last three centuries, the town of San Fratello was affected by three large landslides, developed in different periods: the oldest one occurred in 1754, damaging the northeastern sector of the town; in 1922 a large landslide completely destroyed a wide area in the western hillside of the town. In this paper, the attention is focussed on the most recent landslide that occurred on 14 February 2010: in this case, the phenomenon produced the failure of a large sector of the eastern hillside, causing severe damages to buildings and infrastructures. In particular, several slow-moving rotational and translational slides occurred in the area, making it suitable to monitor ground instability through different InSAR techniques. PS-InSAR™ (permanent scatterers SAR interferometry) techniques, using ERS-1/ERS-2, ENVISAT, RADARSAT-1, and COSMO-SkyMed SAR images, were applied to analyze ground displacements during pre- and post-event phases. Moreover, during the post-event phase in March 2010, a GB-InSAR system, able to acquire data continuously every 14 min, was installed collecting ground displacement maps for a period of about three years, until March 2013. Through the integration of space-borne and ground-based data sets, ground deformation velocity maps were obtained, providing a more accurate delimitation of the February 2010 landslide boundary, with respect to the carried out traditional geomorphological field survey. The integration of GB-InSAR and PSI techniques proved to be very effective in landslide mapping in the San Fratello test site, representing a valid scientific support for local authorities and decision makers during the post-emergency management.

Published

2014

3. Deformations and slope instability on Stromboli volcano: Integration of GBInSAR data and analog modeling

Author

Sandro Moretti, Federico Di Traglia, Chiara Del Ventisette, Teresa Nolesini, and Nicola Casagli

Subjects

geography, Flank, geography.geographical_feature_category, Impact crater, Volcano, Monitoring data, Magma, Instability, Geomorphology, Seismology, Geology, Earth-Surface Processes, Overpressure

Abstract

To understand the relationship between volcano deformations, magma overpressure and flank instability, the results of analog experiments of slope instability and ground deformations, recorded by the GBInSAR system on the western flank of the Stromboli volcano during the period 2009–2011 have been analyzed. Analog experiments that consider both the external (accumulation on the slope) and the endogenous (intrusion-related bulging) trigger phenomena. The effect of accumulation on the sub-aqueous slope on the initiation of sub-marine mass movements has been analyzed. By combining the monitoring data with analog modeling, the observed deformations from the combined action of overpressure in the volcanic system and gravity have been related. The results suggest that the superficial movements observed by the GBInSAR system represent the response of the Stromboli volcano to overpressure changes in the conduit. The movements observed on the Sciara del Fuoco were slope instability phenomena where the gravitational component produced a constant creep, while changes in the magma overpressure explain why certain periods are characterized by accelerations, which induce instability on the external flanks of the crater area and in the Sciara del Fuoco and eventually promote failure of the volcanic slopes.

Published

2013

4. Remote sensing as tool for development of landslide databases: The case of the Messina Province (Italy) geodatabase

Author

Chiara Proietti, Silvia Bianchini, Giuseppe Basile, Daniela Lagomarsino, Sandro Moretti, Andrea Duro, Federico Raspini, Paola Pagliara, Nicola Casagli, Angelo Corazza, Andrea Ciampalini, William Frodella, Roberta Onori, Federica Bardi, and Federico Di Traglia

Subjects

Risk, Land use, Civil Protection, Landslide, 15. Life on land, Induced seismicity, Remote sensing, Hazard, Geodatabase, Earth-Surface Processes, Ancillary data, Thematic map, Remote sensing (archaeology), Satellite imagery, Geology

Abstract

Landslide geodatabases, including inventories and thematic data, today are fundamental tools for national and/or local authorities in susceptibility, hazard and risk management. A well organized landslide geo-database contains different kinds of data such as past information (landslide inventory maps), ancillary data and updated remote sensing (space-borne and ground based) data, which can be integrated in order to produce landslide susceptibility maps, updated landslide inventory maps and hazard and risk assessment maps. Italy is strongly affected by landslide phenomena which cause victims and significant economic damage to buildings and infrastructure, loss of productive soils and pasture lands. In particular, the Messina Province (southern Italy) represents an area where landslides are recurrent and characterized by high magnitude, due to several predisposing factors (e.g. morphology, land use, lithologies) and different triggering mechanisms (meteorological conditions, seismicity, active tectonics and volcanic activity). For this area, a geodatabase was created by using different monitoring techniques, including remote sensing (e.g. SAR satellite ERS1/2, ENVISAT, RADARSAT-1, TerraSAR-X, COSMO-SkyMed) data, and in situ measurements (e.g. GBInSAR, damage assessment). In this paper a complete landslide geodatabase of the Messina Province, designed following the requirements of the local and national Civil Protection authorities, is presented. This geo-database was used to produce maps (e.g. susceptibility, ground deformation velocities, damage assessment, risk zonation) which today are constantly used by the Civil Protection authorities to manage the landslide hazard of the Messina Province.