LEADER 06095nam  2201669z- 450 
001 9910557757503321
005 20231214133345.0
035   $a(CKB)5400000000045787
035   $a(oapen)https://directory.doabooks.org/handle/20.500.12854/68488
035   $a(EXLCZ)995400000000045787
100   $a20202105d2021      |y             0
101 0 $aeng
135   $aurmn|---annan
181   $ctxt$2rdacontent
182   $cc$2rdamedia
183   $acr$2rdacarrier
200 10$aRemote Sensing of Volcanic Processes and Risk
210   $aBasel, Switzerland$cMDPI - Multidisciplinary Digital Publishing Institute$d2021
215   $a1 electronic resource (430 p.)
311   $a3-0365-0126-6 
311   $a3-0365-0127-4 
330   $aRemote sensing data and methods are increasingly being implemented in assessments of volcanic processes and risk. This happens thanks to their capability to provide a spectrum of observation and measurement opportunities to accurately sense the dynamics, magnitude, frequency, and impacts of volcanic activity. This book includes research papers on the use of satellite, aerial, and ground-based remote sensing to detect thermal features and anomalies, investigate lava and pyroclastic flows, predict the flow path of lahars, measure gas emissions and plumes, and estimate ground deformation. The multi-disciplinary character of the approaches employed for volcano monitoring and the combination of a variety of sensor types, platforms, and methods that come out from the papers testify to the current scientific and technology trends toward multi-data and multi-sensor monitoring solutions. The added value of the papers lies in the demonstration of how remote sensing can improve our knowledge of volcanoes that pose a threat to local communities; back-analysis and critical revision of recent volcanic eruptions and unrest periods; and improvement of modeling and prediction methods. Therefore, the selected case studies also demonstrate the societal impact that this scientific discipline can potentially have on volcanic hazard and risk management.
606   $aResearch & information: general$2bicssc
610   $avolcanic thermal anomalies
610   $achange detection
610   $aVillarrica Volcano
610   $asmall satellites
610   $aFireBIRD
610   $aTET-1
610   $agas emission monitoring
610   $aX-band InSAR
610   $ascanning Mini-DOAS
610   $aMulti-GAS
610   $avolcanic gases
610   $aprecipitable water vapor
610   $aradar path delay
610   $aLáscar volcano
610   $aMt. Etna
610   $amulti-platform satellite observations
610   $aRSTVOLC
610   $aStromboli volcano
610   $alandslides
610   $aeffusive activity
610   $aGround-Based InSAR
610   $ainfrared live cam
610   $aseismic monitoring
610   $aPLEIADES
610   $aDigital Elevation Models
610   $aoptical sensors
610   $avolcano remote sensing
610   $avolcano deformation
610   $aSAR interferometry
610   $apost-unrest deflation
610   $ainversion modelling
610   $aSantorini
610   $ahyperspectral
610   $aFENIX
610   $alava field
610   $aSMACC
610   $aLSMA
610   $avolcano monitoring
610   $athermal imaging
610   $atime series
610   $aSeasonal-Trend Decomposition
610   $aheat flux
610   $aemissivity
610   $alava flow modeling
610   $aremote sensing
610   $avolcanic eruption interpretation
610   $aeruption forecasting
610   $aMSG SEVIRI
610   $awavelet
610   $athermal measurements
610   $alava fountain
610   $alava flow
610   $aMt.Etna
610   $aeruptive style
610   $aTimanfaya volcanic area
610   $aHDR geothermal systems
610   $aGPR
610   $aEMI
610   $amagnetic anomalies
610   $aseasonality
610   $alahars hazard
610   $amagma accumulation
610   $apyroclastic flows
610   $aash plumes
610   $avolcanic cloud
610   $aLandsat 8
610   $aelevation model
610   $aVolcán de Colima
610   $alava flow volume estimation
610   $aSPOT
610   $aEO-1 ALI
610   $aMODIS data
610   $aSENTINEL-2 images
610   $ainfrasonic activity
610   $aopen-vent activity
610   $afissural eruption
610   $along- and short-term precursors
610   $aSO2 fluxes
610   $aUV Camera
610   $aEtna Volcano
610   $aexplosive basaltic volcanism
610   $aBezymianny
610   $amonitoring
610   $alava dome
610   $ainflation
610   $aSAR imaging
610   $aradar pixel offsets
610   $aacoustic infrasound
610   $avolcanic emissions
610   $aground-based remote sensing
610   $aSentinel missions
610   $aConvolutional Neural Network (CNN)
610   $aSynthetic Aperture Radar (SAR) imaging
610   $aInSAR processing
610   $ainfrared remote sensing
610   $aSO2 gas emission
610   $asatellite remote sensing
610   $aash fall
610   $alava flows
610   $apyroclastic density currents
610   $amapping
610   $avolcanic hazard
610   $agas emissions
610   $aedifice growth and collapse
610   $avolcanic unrest
610   $athermal anomalies
615  7$aResearch & information: general
700   $aCigna$b Francesca$4edt$01297618
702   $aTapete$b Deodato$4edt
702   $aLu$b Zhong$4edt
702   $aEbmeier$b Susanna K$4edt
702   $aCigna$b Francesca$4oth
702   $aTapete$b Deodato$4oth
702   $aLu$b Zhong$4oth
702   $aEbmeier$b Susanna K$4oth
906   $aBOOK
912   $a9910557757503321
996   $aRemote Sensing of Volcanic Processes and Risk$93024621
997   $aUNINA