Due to their unique geophysical and geodynamic environment, both the Arctic and Antarctic polar regions are often utilized for geodetic and geophysical observations. This book is a collection of papers on various aspects of the scientific investigation and observation techniques of the polar regions at both temporary and permanent observatories. Most papers focus on regional models based on data acquired in polar regions. Geodetic satellite positions systems (GNSS: GPS, GLONASS, GALILEO) will also be discussed as well as other space techniques (DORIS, VLBI). Gravimetry, absolute gravimetry, and tidal gravimetry are also discussed, as well as seismology and meteorology. The book also touches on data analysis and geodynamic interpretation and discusses methods of constructing autonomous observatories.
Jadual kandungan
A Precise Reference Frame for Antarctica from SCAR GPS Campaign Data and Some Geophysical Implications.- Technologies to Operate Year-Round Remote Global Navigation Satellite System (GNSS) Stations in Extreme Environments.- VLNDEF Project for Geodetic Infrastructure Definition of Northern Victoria Land, Antarctica.- Communications Systems for Remote Polar GNSS Station Operation.- Current Status and Future Prospects for the Australian Antarctic Geodetic Network.- Geodetic Research on Deception Island and its Environment (South Shetland Islands, Bransfield Sea and Antarctic Peninsula) During Spanish Antarctic Campaigns (1987–2007).- Validation of the Atmospheric Water Vapour Content from NCEP Using GPS Observations Over Antarctica.- Geodynamics of the Tectonic Detachment in the Penola Strait (Antarctic Peninsula, Archipelago of Argentina Islands).- GPS and Radiosonde Derived Precipitable Water Vapour Content and its Relationship with 5 Years of Long-Wave Radiation Measurements at “Mario Zucchelli” Station, Terra Nova Bay, Antarctica.- Results of the Investigations of the GNSS Antennae in the Framework of SCAR GIANT Project “In Situ GNSS Antenna Tests and Validation of Phase Centre Calibration Data”.- Atmospheric Impact on GNSS Observations, Sea Level Change Investigations and GPS-Photogrammetry Ice Cap Survey at Vernadsky Station in Antarctic Peninsula.- A Validation of Ocean Tide Models Around Antarctica Using GPS Measurements.- Continuous Gravity Observation with the Superconducting Gravimeter CT #043 at Syowa Station, Antarctica.- Tide Gauges in the Antarctic and sub-Antarctic: Instrumentation and Calibration Issues from an Australian Perspective.- Tidal Gravimetry in Polar Regions: An Observation Tool Complementary to Continuous GPS for the Validation of Ocean Tide Models.- Joint Geophysical Observations of Ice Stream Dynamics.- Geomagnetic Observatories in Antarctica; State of the Art and a Perspective View in the Global and Regional Frameworks.- Structure of the Wilkes Basin Lithosphere along the ITASE01 Geotraverse.- Report on Photogrammetric Research Conducted at the Antarctic Station “Academician Vernadskyy”.- The Contribution of Russian Geodesists and Topographers to Antarctic Mapping.
Mengenai Pengarang
Professor Alessandro Capra is a faculty member in the University of Modena’s Civil and Mechanical Engineering Department.
Dr-Ing Reinhard Dietrich is a professor at the Institute of Planetary Geodesy at the Technical Universtiy of Dresden.