Ionosphere Monitoring with Remote Sensing II

doi:10.3390/books978-3-7258-1837-2

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Ionosphere Monitoring with Remote Sensing II

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August 2024

248 pages

ISBN978-3-7258-1838-9 (Hardback)
ISBN978-3-7258-1837-2 (PDF)

https://doi.org/10.3390/books978-3-7258-1837-2

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This is a Reprint of the Special Issue Ionosphere Monitoring with Remote Sensing II that was published in

Engineering

Environmental & Earth Sciences

Summary

Unveiling the physical properties of the Earth's ionosphere is crucial for the comprehension of the dynamic processes occurring within it across various spatial and temporal scales. This is essential for comprehending numerous phenomena associated with Space Weather. The ionosphere, composed of ions and electrons, responds to the initiation, intensification and evolution of magnetic and electric fields, potentially altering its physical properties and energy balance. These changes can significantly affect the propagation properties of electromagnetic signals passing through the ionosphere.

In this context, the Special Issue "Ionosphere Monitoring with Remote Sensing Vol. II" seeks to advance our understanding of the ionosphere by utilising data from various facilities and established ionospheric models.

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Hardback

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Keywords

ionospheric slab thickness; high latitude; geomagnetic storm; East Asia; ionosphere; F2 layer; ionosonde; solar cycle-24; space weather; deep learning; field-aligned irregularities (FAIs); range imaging (RIM); very-high-frequency (VHF) radar; solar flare; ionosphere; ionospheric sounding; ionosonde; GNSS; slant TEC; Mexico; ionosphere spread-F; naive Bayes classifier; East Asia; ionospheric foF2; machine learning; dynamic prediction; ill-posed problem; ionospheric electron density; algorithm; computerized ionospheric tomography; Multivariate Empirical Mode Decomposition; electron density distribution; Swarm satellites; high-latitude ionosphere; seasonal and geomagnetic variability; ionosphere; solar eclipse; global positioning system (GPS); satellite measurements; total electron content (TEC); in situ measurements; equatorial ionization anomaly; Tonga volcanic eruption; ionospheric anomaly; anomaly detection method; EIA; total electron content; ionospheric anomalies; global ionosphere maps; solar activity; ionospheric HF ray tracing; homing; three-dimensional electron density; IRI model; ISP model; oblique sounding; space weather; GNSS; Galileo; scintillation; sigma phi; ionosphere; cycle slip; signal tracking; Greenland; Arctic; space weather; n/a

Ionosphere Monitoring with Remote Sensing II

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