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Remote Sensing of Volcanic Processes and Risk

Remote Sensing of Volcanic Processes and Risk

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Remote 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.

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Keywords

  • acoustic infrasound
  • ash fall
  • ash plumes
  • Bezymianny
  • change detection
  • convolutional neural network (CNN)
  • Digital Elevation Models
  • edifice growth and collapse
  • effusive activity
  • elevation model
  • EMI
  • emissivity
  • EO-1 ALI
  • eruption forecasting
  • eruptive style
  • Etna volcano
  • explosive basaltic volcanism
  • FENIX
  • FireBIRD
  • fissural eruption
  • gas emission monitoring
  • gas emissions
  • GPR
  • Ground-Based InSAR
  • ground-based remote sensing
  • HDR geothermal systems
  • heat flux
  • hyperspectral
  • Inflation
  • infrared live cam
  • infrared remote sensing
  • infrasonic activity
  • InSAR processing
  • inversion modelling
  • lahars hazard
  • Landsat 8
  • Landslides
  • Láscar volcano
  • lava dome
  • lava field
  • lava flow
  • lava flow modeling
  • lava flow volume estimation
  • lava flows
  • lava fountain
  • long- and short-term precursors
  • LSMA
  • magma accumulation
  • magnetic anomalies
  • mapping
  • MODIS data
  • Monitoring
  • MSG SEVIRI
  • Mt. Etna
  • Mt.Etna
  • Multi-GAS
  • multi-platform satellite observations
  • open-vent activity
  • optical sensors
  • Pleiades
  • post-unrest deflation
  • precipitable water vapor
  • pyroclastic density currents
  • pyroclastic flows
  • radar path delay
  • radar pixel offsets
  • Reference, information & interdisciplinary subjects
  • Remote sensing
  • Research & information: general
  • RSTVOLC
  • Santorini
  • SAR imaging
  • SAR interferometry
  • satellite remote sensing
  • scanning Mini-DOAS
  • Seasonal-Trend Decomposition
  • seasonality
  • seismic monitoring
  • Sentinel missions
  • SENTINEL-2 images
  • SMACC
  • small satellites
  • SO2 fluxes
  • SO2 gas emission
  • SPOT
  • Stromboli volcano
  • Synthetic Aperture Radar (SAR) imaging
  • TET-1
  • thermal anomalies
  • thermal imaging
  • thermal measurements
  • Timanfaya volcanic area
  • time series
  • UV Camera
  • Villarrica Volcano
  • Volcán de Colima
  • volcanic cloud
  • volcanic emissions
  • volcanic eruption interpretation
  • volcanic gases
  • volcanic hazard
  • volcanic thermal anomalies
  • Volcanic Unrest
  • volcano deformation
  • volcano monitoring
  • volcano remote sensing
  • wavelet
  • X-band InSAR

Links

DOI: 10.3390/books978-3-0365-0127-7

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