Your search keyword '"Solari, Lorenzo"' showing total 3 results

1. Multi-band satellite radar data for landslide events management: an example from Central Italy.

Author

Solari, Lorenzo, Raspini, Federico, Del Soldato, Matteo, Bianchini, Silvia, Ciampalini, Andrea, Ferrigno, Federica, and Casagli, Nicola

Subjects

*LANDSLIDES, *RADAR, *ARTIFICIAL satellites

Published

2018

2. Satellite DInSAR monitoring of Landslides in mountainous areas.

Author

Barra, Anna, Monserrat, Oriol, Giordan, Daniele, Solari, Lorenzo, Cignetti, Maritina, Crosetto, Michele, Bianchini, Silvia, Catani, Filippo, and Bertolo, Davide

Subjects

*LANDSLIDES, *TOPOGRAPHY, *SPACETIME, *INTERFEROMETRY, *RISK assessment

Abstract

The potential of satellite-based interferometry for landslides activity definition is well known. Many applications have demonstrated that this technique represents a strong supporting tool for landslide risk assessment and monitoring, at both local and regional scale. The ESA' Sentinel-1 (S1) constellation acquires with high revisit-time in a conflict-free operational mode, timely distributing data without costs or restrictions. All these characteristics allow relying upon S1 service for a long-term operational and sustainable use, as a support of both disaster risk reduction and response. For this reason, more and more research projects are based on the use of S1 in geohazards monitoring and early warning. The aim of this work is to present the results achieved in the framework of the European Project (ECHO) U-Geohaz regarding landslides monitoring and early warning supporting tools based on S1. The study area of the project is the Valle d'Aosta region (VDA) that is widely affected by landslide process of different size and typology. Specifically, the Deep-Seated Gravitational Slope Deformations (DSGSDs) are the most representative in terms of area coverage. The study of the state of activity and evolution of these phenomena is very important because DSGSDs affect entire valley flanks and several villages have been built on them or nearby. The use of S1-based interferometry can potentially give a near-real time information on their activity over the whole region supporting decision makers and early warning systems. At the same time, VDA presents challenging characteristics for what concerns the radar response and thus the obtainable results. The main limiting factor is the snow coverage, which is also strongly related to the topography. The topographic relief is highly variable, ranging from 300 m a.s.l. to peaks higher than 4000 m a.s.l. with steep slopes. The regional climate is characterized by wide range of temperatures varying a lot from the mountainous zone to the bottom of the valleys, implying also a strong variation in snow precipitations. This strong variation, in space and time, affects the DInSAR results in terms of coherence and spatial coverage. In this context, a strong effort has been done to develop a processing approach to improve the spatial and temporal sampling, without losing the quality of the results. Moreover, a method that extracts the most significant Active Deformation Areas (ADA) in a semi-automatic way has been adapted and applied. The main results will be exposed. [ABSTRACT FROM AUTHOR]

Published

2019

3. The U-Geohaz project: Sentinel-1 to support geohazards early warning systems and impact assessment.

Author

Monserrat, Oriol, Barra, Anna, Herrera, Gerardo, Solari, Lorenzo, González-Alonso, Elena, Béjar-Pizarro, Marta, Bianchini, Silvia, Sarro, Roberto, García, Anselmo Fernández, Reichenbach, Paola, Catani, Filippo, and Crosetto, Michele

Subjects

*INTERNATIONAL relief, *NATURAL disaster warning systems, *CITIES & towns, *GEOLOGICAL surveys, *LANDSLIDES, *RISK management in business, *INTERFEROMETRY

Abstract

A relevant change in the use of SAR interferometry for risk management and reduction has been marked by the launch of the S-1 A and S-1 B, in 2014 and 2016 respectively, which ensure a SAR acquisition every 6 days above the entire Earth and make images available few hours after the acquisition without costs and limitations. S-1 represents a reliable and low cost tool for remote monitoring at both local and national-scale, which can potentially be exploited by administrative entities and Civil Protection authorities involved in risk management activities. "U-Geohaz, Geohazard impact assessment for urban areas" is a two-year project, started the 1st of January 2018, co-funded by the European Commission, Directorate-General Humanitarian Aid and Civil Protection (ECHO). The main aim of the project is to develop a methodology based on the SAR images acquired by Sentinel-1 (S-1) constellation to assess continuously the potential impact of geohazards on urban areas and critical infrastructures. Starting from the experience and the results obtained in the previous ECHO project SAFETY (2016-2017), the aim is to make a step forward, from periodically updated maps to a near-real time geohazards mapping and monitoring. U-Geohaz will provide tools to exploit the 6-days repeatability of S1 to support early warning systems for landslide and volcanic geohazards and to evaluate the expected damage. The consortium of U-Geohaz is composed of 18 partners, from 11 European countries, including 12 Geological Surveys and 3 Civil Protection Authorities that will support the implementation of tools to be operationally useful in risk management. The use of all the developed products will be implemented in the activities of the Civil Protection Authorities involved in the project. All the implemented procedure and tools are tested and will be demonstrated on the real test scenarios of Canary Island (Gran Canaria, Tenerife and El Hierro islands, Spain) and Valle d'Aosta (Italy). The main results achieved over the two test-sites and the future steps of the project will be presented and discussed. [ABSTRACT FROM AUTHOR]

Published

2019