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37 results on '"Revellino, Paola"'

6. Debris flows and debris avalanches initiation and runout susceptibility assessment in Campania region (Italy)

Author

Tufano Rita, Mazza Davide, Guadagno Francesco Maria, De Vita Pantaleone, Russo Giacomo, and Revellino Paola

Subjects
Environmental sciences, GE1-350
Abstract

Sectors of the Campania region (southern Italy), where pyroclastic airfall deposits cover carbonate slopes, have frequently experienced debris avalanches and debris flows. These landslides are triggered by heavy rainfall and in the last century caused severe destruction and hundreds of deaths. Their occurrence is controlled by the interaction of several factors, both natural and human induced. The initial failure is linked with the presence of morphological discontinuities such as rocky scarps and road cuts, which interrupt the stratigraphical continuity of an “infinite slope”. Here the main criteria for susceptibility analysis are defined trying to develop a procedure for identify highly-susceptible sources, runout and invasion areas.

Published
2023
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10. MULTI-TEMPORAL EVOLUTION ANALYSIS OF MARONTI CLIFF (ISCHIA ISLAND, ITALY) DERIVED FROM MULTI-PERSPECTIVE PHOTOGRAPHIC DATASETS.

Author

PARENTE, LUIGI, COCCA, JLENIA, MAZZA, DAVIDE, ALBANESE, VINCENZO, GUADAGNO, FRANCESCO MARIA, and REVELLINO, PAOLA

Subjects
BEACH erosion, ESTIMATION theory, POINT cloud, ROCKFALL, EROSION, CLIFFS
Abstract

Coastal cliff erosion is a significant hazard for the safety of people, buildings, utilities and infrastructure, given the sudden and episodic nature of the retreat process in time and space. Thus, understanding past retreat trends and a regular diagnosis of the cliff face condition is fundamental for risk management. In this study we show preliminary results of a project aimed at the definition of the coastal erosion (in terms of temporal and spatial scales) of a small portion of cliff located along the Maronti beach in Ischia, Italy. Drone-based and terrestrial acquisition approaches offered the opportunity to exploit photogrammetric techniques to estimate the spatial and temporal rate of change of the investigated portion of cliff. In this study, cliff face topographical evolution is evaluated out by comparing the results obtained from three photographic datasets (variable approach either boat and UAV-based) obtained in 2011, 2021 and 2023. Spatial distribution of two main instability events dated back to 2020 and 2022 were well represented in the maps of change generated with the M3C2 algorithm. The comparison of point clouds for the period 2011-2021 and 2021-2023 produced max retreat rate of the cliff face of approximately 12 and 25 m, respectively. Results highlighted the need for robust co-registration methods to accurately estimate erosion rates. Critical issues are discussed to highlight potentials and limitations encountered with the abovementioned multi-temporal cliff evolution assessment techniques. [ABSTRACT FROM AUTHOR]

Published
2024
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11. The Contribution of Digital Image Correlation for the Knowledge, Control and Emergency Monitoring of Earth Flows.

Author

Mazza, Davide, Romeo, Saverio, Cosentino, Antonio, Mazzanti, Paolo, Guadagno, Francesco Maria, and Revellino, Paola

Subjects
DIGITAL image correlation, EARTHFLOWS, DIGITAL images
Abstract

Earth flows are complex geological processes that, when interacting with linear infrastructures, have the potential to cause significant damage. Consequently, conducting comprehensive investigations and continuous monitoring are becoming paramount in designing effective mitigation measures and ensuring sustainable risk management practices. The use of digital image correlation (DIC) algorithms for the displacement monitoring of earth flows is a relatively new and growing field with a limited number of dedicated works in the literature. Within this framework, the present paper contributes by evaluating DIC techniques at several earth flow sites. These assessments were founded upon data obtained from both low-cost and multi-platform sensors, used to assess the displacement field, pinpointing the most active sectors, and gauging their rates of movement during different kinematic phases. In this regard, the highest localized movement velocities reached in the Pietrafitta (0.01 m/day) and Grillo (0.63 m/day) earth flows experience different ongoing kinematic processes. The versatility of these techniques is notable, manifesting in the ease of installation, cost-effectiveness, and adaptability to various platforms. The proven reliability in terms of maximum accuracy (1 pixel) and sensitivity (0.05 m) lays the foundation for the extensive use of the presented techniques. The amalgamation of these attributes positions DIC techniques as competitive, adaptable, and readily deployable tools in earth flow studies. [ABSTRACT FROM AUTHOR]

Published
2023
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15. Remote Sensing Monitoring of the Pietrafitta Earth Flows in Southern Italy: An Integrated Approach Based on Multi-Sensor Data.

Author

Mazza, Davide, Cosentino, Antonio, Romeo, Saverio, Mazzanti, Paolo, Guadagno, Francesco M., and Revellino, Paola

Subjects
LANDSLIDES, EARTHFLOWS, REMOTE sensing, SYNTHETIC aperture radar, DIGITAL image correlation, RADAR interferometry
Abstract

Earth flows are complex gravitational events characterised by a heterogeneous displacement pattern in terms of scale, style, and orientation. As a result, their monitoring, for both knowledge and emergency purposes, represents a relevant challenge in the field of engineering geology. This paper aims to assess the capabilities, peculiarities, and limitations of different remote sensing monitoring techniques through their application to the Pietrafitta earth flow (Southern Italy). The research compared and combined data collected during the main landslide reactivations by different ground-based remote sensors such as Robotic Total Station (R-TS), Terrestrial Synthetic Aperture Radar Interferometry (T-InSAR), and Terrestrial Laser Scanner (TLS), with data being derived by satellite-based Digital Image Correlation (DIC) analysis. The comparison between R-TS and T-InSAR measurements showed that, despite their different spatial and temporal resolutions, the observed deformation trends remain approximately coherent. On the other hand, DIC analysis was able to detect a kinematic process, such as the expansion of the landslide channel, which was not detected by the other techniques used. The results suggest that, when faced with complex events, the use of a single monitoring technique may not be enough to fully observe and understand the processes taking place. Therefore, the limitations of each different technique alone can be solved by a multi-sensor monitoring approach. [ABSTRACT FROM AUTHOR]

Published
2023
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16. CORRELATION OF MULTIPLATFORM SAR-DATA FOR MULTITEMPORAL SLOPE INSTABILITY ANALYSIS: THE PAUPISI CASE STUDY (BENEVENTO PROVINCE, SOUTHERN ITALY).

Author

SPAGNOLO, CHIARA, TUFANO, RITA, FOCARETA, MARIANO, TANSEY, KEVIN, ALBANESE, VINCENZO, GUADAGNO, FRANCESCO M., and REVELLINO, PAOLA

Subjects
LANDSLIDES, GEOLOGICAL formations, EARTHFLOWS, EMERGENCY management, RAINFALL, SOIL erosion
Abstract

The Benevento Province (southern Italy) has been historically affected by soil erosion and ground deformation (i.e. landslides; Revellino et alii, 2019), as testified by documents and reports which describe damage scenario, social effects, surveys and measures carried out. Revellino et alii (2010) highlighted as the landslide index, defined as the ratio of areas affected by landslides over total areas, reaches up to 90%. Earth flows make up about 46% of these landslides, involving structurally complex geologic formations and often responsible for damaging human infrastructures (e.g. roads and service lines; Guerriero et alii, 2016; Maresca et alii, 2022). As a result, the province has widespread problems in management of the landslide hazard, due to the activation (and reactivation) of phenomena connected to both rainfall and seismic events. In order to reconstruct state of activity maps for the Benevento Province, a multitemporal analysis of multiplatform satellite data was carried out, with a resolution of cells of 20×20 m. In particular, PSInSAR (ERS 1&2 for the time-span 1992-2000, ENVISAT for 2002-2010, and RADARSAT for 2003-2007) and ISBAS data (Sentinel-1 for 2017-2020), were first treated by a grid-based approach to uniform the PS data and subsequently, by a multiplatform approach defining weighted average velocity (VWA) maps on the base of the extent of the area with data availability. Finally, a multiplatform activity-matrix approach allowed the definition of landslide activity maps based on a velocity threshold of ± 3 mm/y, derived by VWA maps. Specifically, velocity threshold allowed to discriminate for each cell of the analyzed area i) stable cells (velocities between ± 3 mm/y), ii) unstable cells (velocities greater than ± 3 mm/y), iii) cells with no data (unclassified). The multiplatform activity-matrix approach at provincial scale was used to identify and analyze unstable area (hotspots), currently involved in active deformation processes. Among them, the Paupisi municipality (Benevento Province) was identified as critical for the involvement of built-up areas and infrastructures in landslide deformation processes. For that reason, Paupisi area was selected as study case and a detailed analysis of the PS distribution as well as reconstruction and evaluation of deformation trend were carried out. Finally, a relation between land deformation and rainfall events was also investigated. [ABSTRACT FROM AUTHOR]

Published
2023
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19. Calculating Economic Flood Damage through Microscale Risk Maps and Data Generalization: A Pilot Study in Southern Italy.

Author

Festa, Gianna Ida, Guerriero, Luigi, Focareta, Mariano, Meoli, Giuseppe, Revellino, Silvana, Guadagno, Francesco Maria, and Revellino, Paola

Abstract

In recent decades, floods have caused significant loss of human life as well as interruptions in economic and social activities in affected areas. In order to identify effective flood mitigation measures and to suggest actions to be taken before and during flooding, microscale risk estimation methods are increasingly applied. In this context, an implemented methodology for microscale flood risk evaluation is presented, which considers direct and tangible damage as a function of hydrometric height and allows for quick estimates of the damage level caused by alluvial events. The method has been applied and tested on businesses and residential buildings of the town of Benevento (southern Italy), which has been hit by destructive floods several times in the past; the most recent flooding occurred in October 2015. The simplified methodology tries to overcome the limitation of the original method—the huge amounts of input data—by applying a simplified procedure in defining the data of the physical features of buildings (e.g., the number of floors, typology, and presence of a basement). Data collection for each building feature was initially carried out through careful field surveys (FAM, field analysis method) and subsequently obtained through generalization of data (DGM, data generalization method). The basic method (FAM) allows for estimating in great detail the potential losses for representative building categories in an urban context and involves a higher degree of resolution, but it is time-consuming; the simplified method (DGM) produces a damage value in a shorter time. By comparison, the two criteria show very similar results and minimal differences, making generalized data acquisition most efficient. [ABSTRACT FROM AUTHOR]

Published
2022
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20. Geotourism, traditions and typical products of Avellino Province.

Author

Cusano, Angelo, Russo, Filippo, Guerriero, Luigi, Colucciello, Aldo, Ruzza, Giuseppe, Guadagno, Francesco M., and Revellino, Paola

Subjects
GEOTOURISM, CULTURAL identity, OLIVE oil, PROVINCES, CULTURAL values
Abstract

Geotourism is a form of nature-oriented tourism devoted to the knowledge and understanding of landscape forms and geological processes; flora and fauna and cultural, historical and human heritage. The great geological and morphological variability of Avellino Province, also called Irpinia, in southern Italy makes this province of particular interest for geotourists. Irpinia has a unique set of geosites, sites of cultural interest, archaeological sites and natural parks. Additionally, since ancient times, it has been a transit route between the Tyrrhenian and Adriatic Seas and, as in all countries of the Mediterranean area, it was dominated by different races, peoples and cultures that contributed to developing its cultural identity and heritage, including its food and wine. Indeed, some Irpinian products were already known and commercialised in Roman times, including wine and olive oil. On this basis, we propose a map showing the characteristics of Avellino Province, including sites of geological, historical-archaeological and cultural value. The map will contribute to a better understanding of this province from a geotourism perspective and might guide tourists through knowledge of Irpinia. [ABSTRACT FROM AUTHOR]

Published
2022
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21. PS-driven inventory of town-damaging landslides in the Benevento, Avellino and Salerno Provinces, southern Italy.

Author

Guerriero, Luigi, Confuorto, Pierluigi, Calcaterra, Domenico, Guadagno, Francesco M., Revellino, Paola, and Di Martire, Diego

Abstract

The Apennine provinces of Campania Region (southern Italy), Benevento, Avellino and Salerno, are known for their ‘unstable towns’ suffering periodic damage from landslides. Their identification and mapping are very challenging tasks, since boundary mapping under urban settlements is not always possible without time-consuming field analysis of building damage and/or expensive mid-term diffuse ground-surface deformation monitoring. To overcome this problem, an inventory of town-damaging landslides, guided by available Permanent Scatterers (PS) ground-deformation data, was prepared. It provides an updated tool suitable to guide future land planning and historical site restoration in the Apennine provinces of Campania Region. Our fourteen Map Sheets show active and local reactivation of suspended/dormant landslides. Overall, 356 landslides were identified, amongst which 162 were identified as flows, 101 as slides, 1 as a spreads and 92 as complex landslides. To supplement our maps, a simplified distribution analysis based on major landslide morphometric characteristics was completed. [ABSTRACT FROM AUTHOR]

Published
2019
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22. Inventory of Vietri-Maiori landslides induced by the storm of October 1954 (southern Italy)

Author

Fiorillo, Francesco, Guerriero, Luigi, Capobianco, Lello, Pagnozzi, Mauro, Revellino, Paola, Russo, Filippo, and Guadagno, Francesco M.

Abstract

On 25 October 1954, a storm hit the area surrounding the villages of Vietri sul Mare and Maiori of the Amalfi Coast (southern Italy) causing more than 300 deaths and severe damage to infrastructures and agriculture. This event has been among the most catastrophic historically documented in Campania Region. On this basis, and considering the lack of an existing complete characterization of the event in terms of triggered slope processes, we used multiple sets of stereoscopic aerial photos and a LiDAR-derived high-resolution topography to produce an event landslide inventory map. Our map provides an overview of the landslide distribution and extent in the area that mainly suffered the effect of the storm and is the basis for a morphometric characterization of landslide source areas that we present in this paper as simplified statistical analysis. In addition, we compared the rainfall distribution with the spatial density of source areas. [ABSTRACT FROM AUTHOR]

Published
2019
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23. LANDSLIDE CHANGE DETECTION AND DISPLACEMENT TRACKING USING NANOSATELLITE IMAGERY: LA MONTAGNA LANDSLIDE, SOUTHERN ITALY.

Author

GUERRIERO, LUIGI, RUZZA, GIUSEPPE, CUSANO, ANGELO, FOCARETA, MARIANO, REVELLINO, PAOLA, and GUADAGNO, FRANCESCO MARIA

Subjects
LANDSLIDES, HAZARD mitigation, REMOTE-sensing images, SURFACE of the earth, TIME series analysis, SURFACE analysis
Abstract

Copyright of Italian Journal of Engineering Geology & Environment is the property of Sapienza Universita di Roma and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
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24. FLOOD HAZARD MAPPING IN CONVEX FLOODPLAIN: MULTIPLE PROBABILITY MODELS FUSION, BANK THRESHOLD AND LEVEES EFFECT SPATIALIZATION.

Author

GUERRIERO, LUIGI, CUSANO, ANGELO, RUZZA, GIUSEPPE, REVELLINO, PAOLA, and GUADAGNO, FRANCESCO MARIA

Subjects
FLOOD risk, LEVEES, FLOODPLAINS, RIPARIAN areas, GAMMA distributions, DISTRIBUTION (Probability theory)
Abstract

Copyright of Italian Journal of Engineering Geology & Environment is the property of Sapienza Universita di Roma and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2019
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25. Flood hazard of major river segments, Benevento Province, Southern Italy.

Author

Guerriero, Luigi, Focareta, Mariano, Fusco, Gennaro, Rabuano, Raffaele, Guadagno, Francesco M., and Revellino, Paola

Subjects
RIVERS, EXTREME value theory, FLOODPLAINS
Abstract

On 15 October 2015, a storm-induced flood hit the central sector of Benevento Province (southern Italy) causing two deaths and severe damage to infrastructure, buildings and local agriculture. This area has a long history of similar events and since 1924 its major river segments have been monitored with several hydrometric stations. We used data from two of these stations and a LiDAR derived high-resolution topography to develop a flood hazard map. For map computation, we first derived a flood inundation map from topography. Subsequently we estimated the probability of exceedance of each specific fluvial stage from the combination of a Generalized Extreme Value and a Gamma fits of available hydrometric data. As boundary condition, we considered a reference scenario corresponding to an estimated 500 year flood. The hazard maps provide an overview of the flood hazard in the central sector of Benevento Province and floodplains zonation in flood perspective. [ABSTRACT FROM AUTHOR]

Published
2018
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26. Brief Communication: A low-cost Arduino®-based wire extensometer for earth flow monitoring.

Author

Guerriero, Luigi, Guerriero, Giovanni, Grelle, Gerardo, Guadagno, Francesco M., and Revellino, Paola

Subjects
EARTHFLOWS, ECOSYSTEM dynamics, DETECTORS, ENVIRONMENTAL monitoring, BIG data
Abstract

Continuous monitoring of earth flow displacement is essential for the understanding of the dynamic of the process, its ongoing evolution and designing mitigation measures. Despite its importance, it is not always applied due to its expense and the need for integration with additional sensors to monitor factors controlling movement. To overcome these problems, we developed and tested a low±cost Arduino±based wire±rail extensometer integrating a data logger, a power system and multiple digital and analog inputs. The system is equipped with a high±precision position transducer that in the test configuration offers a measuring range of 1023mm and an associated accuracy of ±1 mm, and integrates an operating temperature sensor that should allow potential thermal drift that typically affects this kind of systems to be identified and corrected. A field test, conducted at the Pietrafitta earth flow where additional monitoring systems had been installed, indicates a high reliability of the measurement and a high monitoring stability without visible thermal drift. [ABSTRACT FROM AUTHOR]

Published
2017
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27. The Mount Pizzuto earth flow: deformational pattern and recent thrusting evolution.

Author

Guerriero, Luigi, Revellino, Paola, Luongo, Alessio, Focareta, Mariano, Grelle, Gerardo, and Guadagno, Francesco M.

Subjects
*EARTHFLOWS, *THRUST faults (Geology), *DEFORMATIONS (Mechanics)
Abstract

The Mount Pizzuto earth flow has been periodically active in recent decades. Early in 2006, it surged and created a dam across the Ginestra torrent. Episodic floods induced by the earth-flow dam periodically damaged a section of a local road and power and telephone service lines. This paper presents a map showing deformational structures along the flow and a geometric reconstruction of thrust faults at the earth-flow toe from 2006 to 2014. The map, produced on the basis of field observations, shows the spatial distribution of back-tilted surfaces, flank ridges and normal, thrust, and strike-slip faults. Springs, creeks, and ponds are also shown on the map. The map indicates that the earth flow is composed of five kinematic zones. Cartographic data and the spatial–temporal reconstruction of the thrusting evolution offer the basis for interpreting the (mid-term) kinematics of the flow and its controlling factors, and for assessing the influence of earth-flow movement on torrent channel capacity. [ABSTRACT FROM AUTHOR]

Published
2016
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28. Multi-temporal Maps of the Montaguto Earth Flow in Southern Italy from 1954 to 2010.

Author

Guerriero, Luigi, Revellino, Paola, Coe, JeffreyA., Focareta, Mariano, Grelle, Gerardo, Albanese, Vincenzo, Corazza, Angelo, and Guadagno, FrancescoM.

Subjects
*EARTHFLOWS, *TOPOGRAPHIC maps, *BASAL area (Forestry), *GEOGRAPHIC boundaries, *REMOTE-sensing images
Abstract

Historical movement of the Montaguto earth flow in southern Italy has periodically destroyed residences and farmland, and damaged the Italian National Road SS90 and the Benevento-Foggia National Railway. This paper provides maps from an investigation into the evolution of the Montaguto earth flow from 1954 to 2010. We used aerial photos, topographic maps, LiDAR data, satellite images, and field observations to produce multi-temporal maps. The maps show the spatial and temporal distribution of back-tilted surfaces, flank ridges, and normal, thrust, and strike-slip faults. Springs, creeks, and ponds are also shown on the maps. The maps provide a basis for interpreting how basal and lateral boundary geometries influence earth-flow behavior and surface-water hydrology. [ABSTRACT FROM AUTHOR]

Published
2013
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29. Modelling Prospective Flood Hazard in a Changing Climate, Benevento Province, Southern Italy.

Author

Guerriero, Luigi, Ruzza, Giuseppe, Calcaterra, Domenico, Di Martire, Diego, Guadagno, Francesco M., and Revellino, Paola

Subjects
FLOOD warning systems, FLOOD damage, HAZARD mitigation, FLOODPLAINS, CLIMATE change, FLOOD risk, FLOODS, HAZARDS
Abstract

The change of the Earth's climate and the increasing human action (e.g., increasing impervious areas) are influencing the recurrence and magnitude of flooding events and consequently the exposure of urban and rural communities. Under these conditions, flood hazard analysis needs to account for this change through the adoption of nonstationary approaches. Such methods, showing how flood hazard evolves over time, are able to support a long-term plan of adaptation in hazard changing perspective, reducing expected annual damage in flood prone areas. On this basis, in this paper a reevaluation of flood hazard in the Benevento province of southern Italy, is presented, providing a reduced complexity methodological framework for near future flood hazard prediction under nonstationary conditions. The proposed procedure uses multiple nonstationary probability models and a LiDAR-derived high-resolution inundation model to provide present and future flood scenarios in the form of hazard maps. Such maps are derived using a spatialization routine of stage probability across the inundation model that is able to work at different scales. The analysis indicates that, overall, (i) flood hazard is going to decrease in the next 30 years over the Benevento province and (ii) many areas of the Calore river floodplain are going to be subject to higher return level events. Consequently, many areas would require new guidelines of use as the hazard level decreases. Limitations of the analysis are related to the choice of the probability model and the parameter estimation approach. A further limit is that, currently, this method is not able to account for the presence of mitigation measurements. However, result validation indicates a very high accuracy of the proposed procedure with a matching degree, with a recently observed 225-years flood, estimated in 98%. On this basis, the proposed framework can be considered a very important approach in flood hazard estimation able to predict near future evolution of flood hazard as modulated by the ongoing climate change. [ABSTRACT FROM AUTHOR]

Published
2020
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30. A Multi-Module Fixed Inclinometer for Continuous Monitoring of Landslides: Design, Development, and Laboratory Testing.

Author

Ruzza, Giuseppe, Guerriero, Luigi, Revellino, Paola, and Guadagno, Francesco M.

Subjects
INCLINOMETER, LANDSLIDES, TESTING laboratories, NATURAL disaster warning systems, THERMAL efficiency, SYSTEMS development, DESIGN
Abstract

Continuous monitoring of landslides is of basic importance for understanding their behavior, defining their 3D geometry, and providing a basis for early warning purposes. While a number of instrumentations can be used for tracking surface displacement, only automatic or fixed multi-module inclinometers can be used for continuous monitoring of displacement at depth, providing valuable information for landslide geometry reconstruction. Since these instruments are very expensive, thus rarely used, a low-cost and multi-module fixed inclinometer for continuous landslide monitoring has been developed. In this paper, the electronics of the system, including sensor characteristics and optimization, controlling software, and structure are presented. For system development, a single module prototype was first developed and tested in the field to ensure sufficient measuring performance. Subsequently, the multi-module system was designed, assembled, and tested in controlled conditions. Test results indicate the good performance of the system with a displacement measuring accuracy of 0.37% of the length of the inclinometer chain. The linearity test indicates the high linearity of the measures, especially in the range ±20°, which is the typical operating range of such kinds of instrumentations. The thermal efficiency test indicates the high efficiency of the system in preventing measuring errors caused by thermal drifting. [ABSTRACT FROM AUTHOR]

Published
2020
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31. Multi-Method Tracking of Monsoon Floods Using Sentinel-1 Imagery.

Author

Ruzza, Giuseppe, Guerriero, Luigi, Grelle, Gerardo, Guadagno, Francesco Maria, and Revellino, Paola

Subjects
TYPHOONS, SYNTHETIC aperture radar, FLOODS, K-means clustering, MONSOONS
Abstract

Floods cause great losses in terms of human life and damages to settlements. Since the exposure is a proxy of the risk, it is essential to track flood evolution. The increasing availability of Synthetic Aperture Radar (SAR) imagery extends flood tracking capabilities because of its all-water and day/night acquisition. In this paper, in order to contribute to a better evaluation of the potential of Sentinel-1 SAR imagery to track floods, we analyzed a multi-pulse flood caused by a typhoon in the Camarines Sur Province of Philippines between the end of 2018 and the beginning of 2019. Multiple simple classification methods were used to track the spatial and temporal evolution of the flooded area. Our analysis indicates that Valley Emphasis based manual threshold identification, Otsu methodology, and K-Means Clustering have the potential to be used for tracking large and long-lasting floods, providing similar results. Because of its simplicity, the K-Means Clustering algorithm has the potential to be used in fully automated operational flood monitoring, also because of its good performance in terms of computation time. [ABSTRACT FROM AUTHOR]

Published
2019
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32. Multiple Effects of Intense Meteorological Events in the Benevento Province, Southern Italy.

Author

Revellino, Paola, Guerriero, Luigi, Mascellaro, Neri, Fiorillo, Francesco, Grelle, Gerardo, Ruzza, Giuseppe, and Guadagno, Francesco M.

Abstract

In October 2015, two intense rainfall events hit the central and southern regions of Italy and triggered a combination of different and widespread effects, including floods, landslides, and soil erosion. These outcomes devastated about 68 municipalities of the Benevento province (Campania region), killed two people, and caused millions of euros worth of damage to structures, infrastructures, and agriculture. The town of Benevento was one of the sectors most affected by overflow. Extensive areas characterized by flyschoid outcrops experienced widespread occurrences of soil erosion and landslides, and destructive, high-velocity debris flows (about 50) afflicted areas that had experienced heavy rainfall of higher intensity (total rainfall of 415.6 mm). In this study, the characteristics of these rainfall events and related geomorphological processes were determined by (i) analyzing the available rainfall data to identify the spatial pattern, distribution, and statistical characteristics of the two storms and (ii) mapping the storm effects, such as flooded areas, landslide types, and soil erosion. These effects were then related to the spatial distribution of the storms and the local geological and geomorphologic settings that drove their initiation and development. [ABSTRACT FROM AUTHOR]

Published
2019
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33. A Low-Cost Chamber Prototype for Automatic Thermal Analysis of MEMS IMU Sensors in Tilt Measurements Perspective.

Author

Ruzza, Giuseppe, Guerriero, Luigi, Revellino, Paola, and Guadagno, Francesco M.

Subjects
THERMAL analysis, THERMAL batteries, DETECTORS, UNITS of measurement, PROTOTYPES, NEEDS assessment, SERVOMECHANISMS
Abstract

In this work, a low-cost, open-source and replicable system prototype for thermal analysis of low-cost Micro Electro-Mechanical Systems (MEMS) Inertial Measurement Unit (IMU) sensors in tilt measurement perspective is presented and tested. The system is formed of a 3D printed frame, a thermal cell consisting in a Peltier element mounted over a heat sink, and a control and power system. The frame is designed to allow the independent biaxial tilting of the thermal cell through two servomotors. The control board is formed by an Arduino® and a self-made board including a power drive for controlling the thermal unit and servomotors. We tested the chamber analyzing the behavior of multiple MEMS IMU onboard accelerometers suitable for measuring tilt. Our results underline the variability of the thermal behavior of the sensors, also for different sensor boards of the same model, and consequently the need for the adoption of a thermal compensation strategy based on thermal analysis results. These data suggesting the need for the analysis of the thermal behavior of MEMS-based sensors, indicate the potential of our system in making low-cost sensors suitable in medium-to-high precision monitoring applications. [ABSTRACT FROM AUTHOR]

Published
2019
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34. Assessment of Debris-Flow Erosion and Deposit Areas by Morphometric Analysis and a GIS-Based Simplified Procedure: A Case Study of Paupisi in the Southern Apennines.

Author

Grelle, Gerardo, Rossi, Antonietta, Revellino, Paola, Guerriero, Luigi, Guadagno, Francesco Maria, and Sappa, Giuseppe

Abstract

This paper proposes a simplified GIS-based procedure which aims to preliminary assess areas exposed to debris flows by evaluating erosion and deposition area into channels and along alluvial fans. The methodology is based on the definition of several morphometric parameters on Digital Elevation Models (DEMs); it is independent from landslide volume and its rheological characteristics. By solving a set of parametric equations and excluding, from time to time, the unlikely areas by means of an analysis process that uses on/off-raster masks, potential erosion and deposition areas can be identified. The procedure was applied at six intra-mountain basins upstream of the village of Paupisi, Southern Italy, which was involved in multiple debris flow events in October 2015. The model estimated that a range between 15–21% of the selected basin drainage channels may be identified as erosion areas. Moreover, comparison of the recent debris flow paths with model outputs shows a good performance of the procedure, which was able to predict about 46% of the total actual propagation and invasion areas and about 62% of the distribution deposit areas. The methodology can be considered a useful screening for the identification of debris flow-susceptible channels, suitable for use in preliminary hazard evaluations. [ABSTRACT FROM AUTHOR]

Published
2019
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35. Thermal Compensation of Low-Cost MEMS Accelerometers for Tilt Measurements.

Author

Ruzza, Giuseppe, Guerriero, Luigi, Revellino, Paola, and Guadagno, Francesco M.

Subjects
MICROELECTROMECHANICAL systems, ACCELEROMETERS, PROBLEM solving, POLYNOMIALS, ERROR analysis in mathematics
Abstract

Low-cost MEMS accelerometers have the potential to be used in a number of tilt-based monitoring applications but have the disadvantage of being very sensitive to temperature variation (thermal drift). In this paper, we analyze the thermal behavior of a low-cost sensor in the range −10 to +45 °C in order to provide a simple compensation strategy to mitigate this problem. For sensor analysis, we have developed a miniaturized thermal chamber, which was mounted on a tilting device to account for tilt angle variation. The obtained raw data were used to construct low degree polynomial equations that by relating the measurement error induced by thermal drift (i.e., acceleration residuals) to temperature and inclination (of each specific axis), can be used for thermal compensation. To validate our compensation strategy, we performed a field monitoring test and evaluated the compensation performance by calculating RMS errors before and after correction. After compensation, the RMS errors calculated for both the X and Y axes decreased by 96%, indicating the potential of using a simple set of equations to solve common drawbacks that currently make low-cost MEMS sensors unsuitable for tilt-based monitoring applications. [ABSTRACT FROM AUTHOR]

Published
2018
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36. Storminess and geo-hydrological events affecting small coastal basins in a terraced Mediterranean environment.

Author

Cevasco, Andrea, Diodato, Nazzareno, Revellino, Paola, Fiorillo, Francesco, Grelle, Gerardo, and Guadagno, Francesco M.

Subjects
*HYDROGEOLOGY, *METEOROLOGICAL precipitation, *STORMS, *TIME series analysis
Abstract

This study was prompted by the occurrence of an extreme Damaging geo-Hydrological Event (DHE) which occurred on October 25th 2011 and which affected a wide area of the northern Mediterranean region. After analysing the storm by means of the precipitation time series, the study attempts to relate the October 25th 2011 DHE with a series of other DHEs that occurred in the period 1954–2012, assessed via the use of historical data and classified according to severity, with a Storm Erosivity Indicator (Ra). The annual mean of the Ra value (2582 MJ mm ha − 1 h − 1 y − 1 ) confirmed that the study area is one of the European regions with the highest rainfall erosivity level. A shift in storminess during 1991–2012 with respect to 1954–1990 was observed. A return period of 1000 years was calculated for the single storm erosivity of October 25th, which contributed to 84% of the total annual storm erosivity of 2011 A quite good agreement was found comparing DHE distribution and severity with Ra anomalies over time. As a matter of fact, most of the low severity DHEs (62.5%) occurred in years in which the Ra was below the average value. Moreover, almost all DHEs (93%) ranging from medium- to very high-severity occurred in years for which the Ra exceeded the average value. With regard to the occurrence of the most severe DHE classes, a threshold of the Ra and a recurrence time of approximately 3300 MJ mm ha − 1 h − 1 y − 1 and 12 years, respectively, were identified. Finally, some evidences suggest that an increasing frequency of DHEs is expected in the forthcoming years. It is argued that understanding these issues is a major priority for future research in order to improve land and urban planning strategies for preserving people and the environment, leading ultimately to an effective risk reduction. [ABSTRACT FROM AUTHOR]

Published
2015
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37. Influence of slip-surface geometry on earth-flow deformation, Montaguto earth flow, southern Italy.

Author

Guerriero, Luigi, Coe, Jeffrey A., Revellino, Paola, Grelle, Gerardo, Pinto, Felice, and Guadagno, Francesco M.

Subjects
*SURFACE geometry, *EARTHFLOWS, *DEFORMATIONS (Mechanics), *BOREHOLES, *TEMPORAL distribution (Quantum optics), *PLATE tectonics
Abstract

We investigated relations between slip-surface geometry and deformational structures and hydrologic features at the Montaguto earth flow in southern Italy between 1954 and 2010. We used 25 boreholes, 15 static cone-penetration tests, and 22 shallow-seismic profiles to define the geometry of basal- and lateral-slip surfaces; and 9 multitemporal maps to quantify the spatial and temporal distribution of normal faults, thrust faults, back-tilted surfaces, strike-slip faults, flank ridges, folds, ponds, and springs. We infer that the slip surface is a repeating series of steeply sloping surfaces (risers) and gently sloping surfaces (treads). Stretching of earth-flow material created normal faults at risers, and shortening of earth-flow material created thrust faults, back-tilted surfaces, and ponds at treads. Individual pairs of risers and treads formed quasi-discrete kinematic zones within the earth flow that operated in unison to transmit pulses of sediment along the length of the flow. The locations of strike-slip faults, flank ridges, and folds were not controlled by basal-slip surface topography but were instead dependent on earth-flow volume and lateral changes in the direction of the earth-flow travel path. The earth-flow travel path was strongly influenced by inactive earth-flow deposits and pre-earth-flow drainages whose positions were determined by tectonic structures. The implications of our results that may be applicable to other earth flows are that structures with strikes normal to the direction of earth-flow motion (e.g., normal faults and thrust faults) can be used as a guide to the geometry of basal-slip surfaces, but that depths to the slip surface (i.e., the thickness of an earth flow) will vary as sediment pulses are transmitted through a flow. [ABSTRACT FROM AUTHOR]

Published
2014
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