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dc.contributor.editorCigna, Francesca
dc.contributor.editorTapete, Deodato
dc.contributor.editorLu, Zhong
dc.contributor.editorEbmeier, Susanna K.
dc.date.accessioned2021-05-01T15:11:13Z
dc.date.available2021-05-01T15:11:13Z
dc.date.issued2021
dc.identifierONIX_20210501_9783036501260_234
dc.identifier.urihttps://directory.doabooks.org/handle/20.500.12854/68488
dc.description.abstractRemote 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.
dc.languageEnglish
dc.subject.classificationbic Book Industry Communication::G Reference, information & interdisciplinary subjects::GP Research & information: general
dc.subject.othervolcanic thermal anomalies
dc.subject.otherchange detection
dc.subject.otherVillarrica Volcano
dc.subject.othersmall satellites
dc.subject.otherFireBIRD
dc.subject.otherTET-1
dc.subject.othergas emission monitoring
dc.subject.otherX-band InSAR
dc.subject.otherscanning Mini-DOAS
dc.subject.otherMulti-GAS
dc.subject.othervolcanic gases
dc.subject.otherprecipitable water vapor
dc.subject.otherradar path delay
dc.subject.otherLáscar volcano
dc.subject.otherMt. Etna
dc.subject.othermulti-platform satellite observations
dc.subject.otherRSTVOLC
dc.subject.otherStromboli volcano
dc.subject.otherlandslides
dc.subject.othereffusive activity
dc.subject.otherGround-Based InSAR
dc.subject.otherinfrared live cam
dc.subject.otherseismic monitoring
dc.subject.otherPLEIADES
dc.subject.otherDigital Elevation Models
dc.subject.otheroptical sensors
dc.subject.othervolcano remote sensing
dc.subject.othervolcano deformation
dc.subject.otherSAR interferometry
dc.subject.otherpost-unrest deflation
dc.subject.otherinversion modelling
dc.subject.otherSantorini
dc.subject.otherhyperspectral
dc.subject.otherFENIX
dc.subject.otherlava field
dc.subject.otherSMACC
dc.subject.otherLSMA
dc.subject.othervolcano monitoring
dc.subject.otherthermal imaging
dc.subject.othertime series
dc.subject.otherSeasonal-Trend Decomposition
dc.subject.otherheat flux
dc.subject.otheremissivity
dc.subject.otherlava flow modeling
dc.subject.otherremote sensing
dc.subject.othervolcanic eruption interpretation
dc.subject.othereruption forecasting
dc.subject.otherMSG SEVIRI
dc.subject.otherwavelet
dc.subject.otherthermal measurements
dc.subject.otherlava fountain
dc.subject.otherlava flow
dc.subject.otherMt.Etna
dc.subject.othereruptive style
dc.subject.otherTimanfaya volcanic area
dc.subject.otherHDR geothermal systems
dc.subject.otherGPR
dc.subject.otherEMI
dc.subject.othermagnetic anomalies
dc.subject.otherseasonality
dc.subject.otherlahars hazard
dc.subject.othermagma accumulation
dc.subject.otherpyroclastic flows
dc.subject.otherash plumes
dc.subject.othervolcanic cloud
dc.subject.otherLandsat 8
dc.subject.otherelevation model
dc.subject.otherVolcán de Colima
dc.subject.otherlava flow volume estimation
dc.subject.otherSPOT
dc.subject.otherEO-1 ALI
dc.subject.otherMODIS data
dc.subject.otherSENTINEL-2 images
dc.subject.otherinfrasonic activity
dc.subject.otheropen-vent activity
dc.subject.otherfissural eruption
dc.subject.otherlong- and short-term precursors
dc.subject.otherSO2 fluxes
dc.subject.otherUV Camera
dc.subject.otherEtna Volcano
dc.subject.otherexplosive basaltic volcanism
dc.subject.otherBezymianny
dc.subject.othermonitoring
dc.subject.otherlava dome
dc.subject.otherinflation
dc.subject.otherSAR imaging
dc.subject.otherradar pixel offsets
dc.subject.otheracoustic infrasound
dc.subject.othervolcanic emissions
dc.subject.otherground-based remote sensing
dc.subject.otherSentinel missions
dc.subject.otherConvolutional Neural Network (CNN)
dc.subject.otherSynthetic Aperture Radar (SAR) imaging
dc.subject.otherInSAR processing
dc.subject.otherinfrared remote sensing
dc.subject.otherSO2 gas emission
dc.subject.othersatellite remote sensing
dc.subject.otherash fall
dc.subject.otherlava flows
dc.subject.otherpyroclastic density currents
dc.subject.othermapping
dc.subject.othervolcanic hazard
dc.subject.othergas emissions
dc.subject.otheredifice growth and collapse
dc.subject.othervolcanic unrest
dc.subject.otherthermal anomalies
dc.titleRemote Sensing of Volcanic Processes and Risk
dc.typebook
oapen.identifier.doi10.3390/books978-3-0365-0127-7
oapen.relation.isPublishedBy46cabcaa-dd94-4bfe-87b4-55023c1b36d0
oapen.relation.isbn9783036501260
oapen.relation.isbn9783036501277
oapen.pages430
oapen.place.publicationBasel, Switzerland


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