Reprint
Ionosphere Monitoring with Remote Sensing
Edited by
December 2022
302 pages
- ISBN978-3-0365-5903-2 (Hardback)
- ISBN978-3-0365-5904-9 (PDF)
This book is a reprint of the Special Issue Ionosphere Monitoring with Remote Sensing that was published in
Engineering
Environmental & Earth Sciences
Summary
This book focuses on the characterization of the physical properties of the Earth’s ionosphere, contributing to unveiling the nature of several processes responsible for a plethora of space weather-related phenomena taking place in a wide range of spatial and temporal scales. This is made possible by the exploitation of a huge amount of high-quality data derived from both remote sensing and in situ facilities such as ionosondes, radars, satellites and Global Navigation Satellite Systems receivers.
Format
- Hardback
License
© 2022 by the authors; CC BY-NC-ND license
Keywords
electron temperature; topside ionosphere; ESA Swarm satellites; International Reference Ionosphere model; Langmuir Probes in-situ data; Incoherent Scatter Radar data; GNSS; GBAS; ionospheric gradient anomaly; one class support vector machine; earthquake; pre-earthquake anomalies; swarm satellites; ionospheric plasma; deep learning; physical mechanisms; τ; geomagnetic equator; magnetic storm; ionosphere; vertical pulse sounding; ionosonde; ionogram; software-defined radio; radar imaging; aspect angle; field-aligned plasma irregularities; mid-latitude E region; norm-constrained Capon; VHF radar; plasma turbulence; ionospheric irregularities; ionosphere F region; high latitude; pressure-gradient current; diamagnetic current; swarm measurements; oblique ionogram; automatic inversion; electron density profile; quasi-parabolic segments; the sporadic E layer; internal fine structure; high-resolution ionosphere imaging; frequency domain interferometry technique; plasma turbulence; auroral ionosphere; E × B plasma motion; ionospheric scintillation; GNSS-R; CYGNSS; earthquakes; polar ionosphere; VIPIR; Dynasonde; Jang Bogo Station (JBS); Antarctica; solar eclipse; ionosphere; precise point positioning; GNSS; total electron content; rate of total electron content index; Swarm satellite measurements; ionosonde; electron density; main ionospheric trough; high latitude trough; ring ionospheric trough; low latitude trough; auroral diffuse precipitation; n/a