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Remote Sensing by Satellite Gravimetry



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Autore: Gruber Thomas Visualizza persona
Titolo: Remote Sensing by Satellite Gravimetry Visualizza cluster
Pubblicazione: Basel, Switzerland, : MDPI - Multidisciplinary Digital Publishing Institute, 2021
Descrizione fisica: 1 electronic resource (286 p.)
Soggetto topico: Research & information: general
Soggetto non controllato: terrestrial water storage (TWS)
GRACE
GLDAS
TRMM
drought
ENSO
NAO
Turkey
Mass balance
Ice Sheets
Sea-level Rise
Antarctica
CryoSat-2
GRACE-Follow On
GRACE-FO
downward continuation
spectral methods
gravity field recovery
GRACE Follow-On
orbit configuration
synergistic observation
mass transport in the Earth system
GRACE and GRACE follow-on mission
current and future observation concepts and instruments
GRACE TWSA
groundwater level anomaly
downscaling
machine learning
boosted regression trees
glacial sediment
ice mass
satellite gravimetry
Patagonia
ice mass change
SLR
swarm
normal equation combination
coseismic gravity gradient changes
gravity field model
GOCE
Earth’s gravity field
kinematic orbit
kinematic baseline
time-variable gravity
geocenter
reference frames
self-attraction and loading
Level-2 processing
time-variable gravity field
mass change monitoring
next-generation gravity mission
temporal gravity field
numerical closed-loop simulation
satellite mission constellations
mass transport
gravity field satellite missions
GOCE High-Level Processing Facility (HPF), earth gravity field
geoid
spectral enhancement method (SEM), GPS/leveling
Persona (resp. second.): EickerAnnette
FlechtnerFrank
GruberThomas
Sommario/riassunto: Over the last two decades, satellite gravimetry has become a new remote sensing technique that provides a detailed global picture of the physical structure of the Earth. With the CHAMP, GRACE, GOCE and GRACE Follow-On missions, mass distribution and mass transport in the Earth system can be systematically observed and monitored from space. A wide range of Earth science disciplines benefit from these data, enabling improvements in applied models, providing new insights into Earth system processes (e.g., monitoring the global water cycle, ice sheet and glacier melting or sea-level rise) or establishing new operational services. Long time series of mass transport data are needed to disentangle anthropogenic and natural sources of climate change impacts on the Earth system. In order to secure sustained observations on a long-term basis, space agencies and the Earth science community are currently planning future satellite gravimetry mission concepts to enable higher accuracy and better spatial and temporal resolution. This Special Issue provides examples of recent improvements in gravity observation techniques and data processing and analysis, applications in the fields of hydrology, glaciology and solid Earth based on satellite gravimetry data, as well as concepts of future satellite constellations for monitoring mass transport in the Earth system.
Titolo autorizzato: Remote Sensing by Satellite Gravimetry  Visualizza cluster
Formato: Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione: Inglese
Record Nr.: 9910557772303321
Lo trovi qui: Univ. Federico II
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