Aoki / Kreemer | GNSS Monitoring of the Terrestrial Environment | Buch | 978-0-323-95507-2 | sack.de

Buch, Englisch, Format (B × H): 216 mm x 276 mm, Gewicht: 890 g

Aoki / Kreemer

GNSS Monitoring of the Terrestrial Environment

Earthquakes, Volcanoes and Climate Change
Erscheinungsjahr 2024
ISBN: 978-0-323-95507-2
Verlag: William Andrew Publishing

Earthquakes, Volcanoes and Climate Change

Buch, Englisch, Format (B × H): 216 mm x 276 mm, Gewicht: 890 g

ISBN: 978-0-323-95507-2
Verlag: William Andrew Publishing

GNSS Monitoring of the Terrestrial Environment: Earthquakes, Volcanoes, and Climate Change presents the application of GNSS technologies to natural hazards on Earth. The book details the background theory of the GNSS techniques discussed and takes the reader through applications and implementation. Tables comparing GNSS with other geodetic techniques, such as SAR, VLBI, SLR, and conventional geodetic methods such as strainmeters, tiltmeters, and leveling surveys are also included. The book concludes with a chapter bridging both parts, discussing the relationship between earthquakes, volcanism, and climate change. The book is aimed at academics, researchers, and advanced students working in the fields of remote sensing technologies or natural hazards. It is divided into two parts, with the first covering the monitoring of earthquakes, volcanoes, and applications of GNSS signals to better understand earthquakes and volcanism, while the second part covers monitoring climate change with GNSS.

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Autoren/Hrsg.

Aoki, Yosuke
Kreemer, Corné

Fachgebiete

Weitere Infos & Material

1. Introduction 2. Technical aspects of GNSS data processing Part I - Monitoring earthquakes and volcanoes with GNSS 3. On the use of GNSS-inferred crustal strain accumulation in evaluating seismic potential 4. GNSS applications for earthquake deformation 5. GNSS observations of transient deformation in plate boundary zones 6. Earthquake and tsunami early warning with GNSS data 7. Measuring volcano deformation with GNSS 8. GNSS applications for ionospheric seismology and volcanology Part II - Monitoring climate change with GNSS 9. GNSS applications for measuring sea level changes 10. GNSS application for weather and climate change monitoring 11. Monitoring of extreme weather: GNSS remote sensing of flood inundation and hurricane wind speed 12. GNSS and the cryosphere 13. The role of GNSS monitoring in landslide research 14. Climate- and weather-driven solid Earth deformation and seismicity 15. Influence of climate change on magmatic processes: What does geodesy and modeling of geodetic data tell us?

Aoki, Yosuke
Dr. Yosuke Aoki received his Ph.D. degree from the University of Tokyo, Tokyo, Japan, in 2001. He was then a Lamont Postdoctoral Fellow at Lamont-Doherty Earth Observatory of Columbia University, NY, United States, between 2001 and 2003. He took a faculty position at Earthquake Research Institute at the University of Tokyo in 2003 and has been there since then. His primary expertise is observing and modeling the deformation of the Earth's surface associated with seismic and volcanic activity mainly from space geodetic techniques such as GNSS and SAR. For example, he has revealed the magma plumbing system of active volcanoes by combining geodetic data with independent information such as seismic and electromagnetic observations and petrological insights. He is also interested in technical developments to extract hidden information in the data and to gain insights into the mechanics of earthquakes and volcanic activity. He has published more than 90 peer-reviewed articles during his career.

Kreemer, Corné
Dr. Corné Kreemer received his Ph.D. degree from Stony Brook University, NY, United States, in 2001. He was a postdoctoral fellow until 2004 at the Ecole Normale Supérieure, Paris, France, and the Collège de France, Paris, France. Since 2004 he is an academic member of the Nevada Geodetic Laboratory in the Nevada Bureau of Mines and Geology at the University of Nevada, Reno, NV, United States. He also has a joint position at Nevada Seismological Laboratory. His primary expertise is in converting GNSS-derived crustal velocities into strain rate and vertical land motion models and relating those results to earthquake occurrence and lithosphere and mantle dynamics. He has also worked on reference frame definitions, several earthquakes, tsunami early warning, and time-series analysis techniques. He is best known as the main contributor to the Global Strain Rate Model. He has published over 85 peer-reviewed articles.

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