Remote Sensing in Applied Geophysics
Colombero, Chiara
Remote Sensing in Applied Geophysics - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (318 p.)
Open Access
The Special Issue is focused on recent and upcoming advances in the combined application of remote sensing and applied geophysics. Applied geophysics analyzes the distribution of physical properties in the subsurface for a wide range of geological, engineering, and environmental applications at different scales. Seismic, electrical, magnetic, and electromagnetic methods are among the most applied and well-established geophysical techniques. These methods share the advantages of being non-invasive and exploring wide areas of investigation with respect to conventional methods (e.g., drilling). Geophysical surveys are usually carried out deploying or moving the appropriate instrumentation directly on the ground surface. However, recent technological advances have resulting in the development of innovative acquisition systems becoming more typical of the remote sensing community (e.g., airborne surveys). While applied geophysics mainly focuses on the subsurface, typical remote sensing techniques have the ability to accurately image the Earth's surface with high-resolution investigations carried out by means of terrestrial, airborne, or satellite-based platforms. The integration of surface and subsurface information is often crucial for several purposes, including the processing of geophysical data, the characterization and time-lapse monitoring of surface and near-surface targets, and the reconstruction of highly detailed and comprehensive 3D models of the investigated areas. Recent contributions showing the added value of surface reconstruction and/or monitoring in the processing, interpretation, and cross-comparison of geophysical techniques for archaeological, environmental, and engineering studies are collected in this book. Pioneering geophysical acquisitions by means of innovative remote systems are also presented.
Creative Commons
English
books978-3-03943-734-4 9783039437337 9783039437344
10.3390/books978-3-03943-734-4 doi
Research & information: general
Alpine glaciers Belvedere Glacier ice thickness estimation ice bottom morphology and properties ground-penetrating radar (GPR) single-station passive seismic measurements horizontal-to-vertical spectral ratio (HVSR) archaeological prospection automated resistivity profiling ARP electrical resistivity survey multi-channel ground penetrating radar geophysical methods integration Chang'E-4 lunar penetrating radar (LPR) 3D velocity spectrum properties analysis remote sensing and GIS field geophysics groundwater potentiality West Qena Egypt mine collapse anthropogenic hazard seismology GNSS InSAR post-seismic deformation mechanism InSAR time series algorithm Kermanshah earthquake viscoelastic relaxation near-surface geophysics LiDAR magnetic gradiometry surface magnetic susceptibility electromagnetic induction Middle Woodland period Hopewell archaeology depth inversion sedimentary processes Autonomous Surface Vehicles (ASV) marine geophysics shallow water environments repeated 4D surveys NAIADI Project (New Autonomous/automatIc systems for the study AnD monitoring of aquatic envIronments) electrical resistivity tomography (ERT) frequency domain electromagnetic (FDEM) archaeology terramare bronze age elastic full waveform inversion acoustic-elastic coupled ocean bottom seismic multicomponent multiparameter ground penetrating radar (GPR) moisture content velocity analysis optimal gather passive seismic interferometry surface wave inversion shear-wave velocity ambient noise dispersion curve aerial archaeology landscape archaeology frequency-domain electromagnetic methods (FDEM) paleochannel Snow Eagle 601 aerogeophysics Princess Elizabeth Land ice-penetrating radar Antarctic ice sheet n/a
Remote Sensing in Applied Geophysics - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute 2020 - 1 electronic resource (318 p.)
Open Access
The Special Issue is focused on recent and upcoming advances in the combined application of remote sensing and applied geophysics. Applied geophysics analyzes the distribution of physical properties in the subsurface for a wide range of geological, engineering, and environmental applications at different scales. Seismic, electrical, magnetic, and electromagnetic methods are among the most applied and well-established geophysical techniques. These methods share the advantages of being non-invasive and exploring wide areas of investigation with respect to conventional methods (e.g., drilling). Geophysical surveys are usually carried out deploying or moving the appropriate instrumentation directly on the ground surface. However, recent technological advances have resulting in the development of innovative acquisition systems becoming more typical of the remote sensing community (e.g., airborne surveys). While applied geophysics mainly focuses on the subsurface, typical remote sensing techniques have the ability to accurately image the Earth's surface with high-resolution investigations carried out by means of terrestrial, airborne, or satellite-based platforms. The integration of surface and subsurface information is often crucial for several purposes, including the processing of geophysical data, the characterization and time-lapse monitoring of surface and near-surface targets, and the reconstruction of highly detailed and comprehensive 3D models of the investigated areas. Recent contributions showing the added value of surface reconstruction and/or monitoring in the processing, interpretation, and cross-comparison of geophysical techniques for archaeological, environmental, and engineering studies are collected in this book. Pioneering geophysical acquisitions by means of innovative remote systems are also presented.
Creative Commons
English
books978-3-03943-734-4 9783039437337 9783039437344
10.3390/books978-3-03943-734-4 doi
Research & information: general
Alpine glaciers Belvedere Glacier ice thickness estimation ice bottom morphology and properties ground-penetrating radar (GPR) single-station passive seismic measurements horizontal-to-vertical spectral ratio (HVSR) archaeological prospection automated resistivity profiling ARP electrical resistivity survey multi-channel ground penetrating radar geophysical methods integration Chang'E-4 lunar penetrating radar (LPR) 3D velocity spectrum properties analysis remote sensing and GIS field geophysics groundwater potentiality West Qena Egypt mine collapse anthropogenic hazard seismology GNSS InSAR post-seismic deformation mechanism InSAR time series algorithm Kermanshah earthquake viscoelastic relaxation near-surface geophysics LiDAR magnetic gradiometry surface magnetic susceptibility electromagnetic induction Middle Woodland period Hopewell archaeology depth inversion sedimentary processes Autonomous Surface Vehicles (ASV) marine geophysics shallow water environments repeated 4D surveys NAIADI Project (New Autonomous/automatIc systems for the study AnD monitoring of aquatic envIronments) electrical resistivity tomography (ERT) frequency domain electromagnetic (FDEM) archaeology terramare bronze age elastic full waveform inversion acoustic-elastic coupled ocean bottom seismic multicomponent multiparameter ground penetrating radar (GPR) moisture content velocity analysis optimal gather passive seismic interferometry surface wave inversion shear-wave velocity ambient noise dispersion curve aerial archaeology landscape archaeology frequency-domain electromagnetic methods (FDEM) paleochannel Snow Eagle 601 aerogeophysics Princess Elizabeth Land ice-penetrating radar Antarctic ice sheet n/a