Remote Sensing Analysis of Geologic Hazards
In recent decades, classical survey approaches have evolved and with the advent of new technologies and platforms, remote sensing systems have become popular and widely used in geosciences. Contactless devices are not invasive and allow for measuring without accessing the investigated area. This is...
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Giordan, Daniele edt Remote Sensing Analysis of Geologic Hazards Basel MDPI - Multidisciplinary Digital Publishing Institute 2022 1 electronic resource (254 p.) text txt rdacontent computer c rdamedia online resource cr rdacarrier In recent decades, classical survey approaches have evolved and with the advent of new technologies and platforms, remote sensing systems have become popular and widely used in geosciences. Contactless devices are not invasive and allow for measuring without accessing the investigated area. This is an excellent advantage as earth surface processes often occur in remote areas and can be potentially dangerous or difficult to access. Satellite remote sensing offers the possibility of using multi-band high-resolution data over large areas. Therefore, it can be of great support for natural risk monitoring and analysis at a regional scale. On the other hand, terrestrial systems feature high spatial and temporal resolutions, which can assist in observing the evolution of fast and potentially dangerous phenomena. Therefore, proximal sensing systems are of great value for risk assessment and early warning procedures of natural hazards. This book focuses on recent and upcoming advances in the remote and proximal sensing monitoring of geologic hazards, warning procedures, and new data-processing techniques. English Research & information: general bicssc Geography bicssc multi-temporal interferometry mining salt dissolution MTInSAR sinkholes digital image correlation template matching natural hazards surface deformations optical remote sensing time-lapse camera 3D point cloud voxels supervoxels rock slope management classification knowledge extraction semantics object-oriented change detection Fengfeng mine mining deformation monitoring MSBAS multiplatform SAR data dense vegetation threshold landslide early warning system velocity water level GNSS lava volcanoes PlanetScope object-based image analysis SAR interferometry slope instability ground stability monitoring Sentinel-1 COSMO-SkyMed time series analysis rainfall-triggered landslides tropics statistical analysis CHIRPS multi-temporal image composite Jølster landslide database Sentinel-2 Google Earth Engine NDVI glacial landscape evolution characteristics state of activity earthquake rainfall the Bailong River basin 3-0365-5699-0 Luzi, Guido edt Monserrat, Oriol edt Dematteis, Niccolò edt Giordan, Daniele oth Luzi, Guido oth Monserrat, Oriol oth Dematteis, Niccolò oth |
language |
English |
format |
eBook |
author2 |
Luzi, Guido Monserrat, Oriol Dematteis, Niccolò Giordan, Daniele Luzi, Guido Monserrat, Oriol Dematteis, Niccolò |
author_facet |
Luzi, Guido Monserrat, Oriol Dematteis, Niccolò Giordan, Daniele Luzi, Guido Monserrat, Oriol Dematteis, Niccolò |
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d g dg g l gl o m om n d nd |
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HerausgeberIn HerausgeberIn HerausgeberIn Sonstige Sonstige Sonstige Sonstige |
title |
Remote Sensing Analysis of Geologic Hazards |
spellingShingle |
Remote Sensing Analysis of Geologic Hazards |
title_full |
Remote Sensing Analysis of Geologic Hazards |
title_fullStr |
Remote Sensing Analysis of Geologic Hazards |
title_full_unstemmed |
Remote Sensing Analysis of Geologic Hazards |
title_auth |
Remote Sensing Analysis of Geologic Hazards |
title_new |
Remote Sensing Analysis of Geologic Hazards |
title_sort |
remote sensing analysis of geologic hazards |
publisher |
MDPI - Multidisciplinary Digital Publishing Institute |
publishDate |
2022 |
physical |
1 electronic resource (254 p.) |
isbn |
3-0365-5700-8 3-0365-5699-0 |
illustrated |
Not Illustrated |
work_keys_str_mv |
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status_str |
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Remote Sensing Analysis of Geologic Hazards |
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1796652572452323328 |
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