G21C:
Unique Uses of Geodetic Data: From High Rate to High Precision II
G21C:
Unique Uses of Geodetic Data: From High Rate to High Precision II
Unique Uses of Geodetic Data: From High Rate to High Precision II
Session ID#: 8587
Session Description:
The proliferation of geodetic instrumentation and data sets over the past few decades has led to a more nuanced view of Earth processes primarily due to reductions in noise levels and increased precision of measurements of ground displacements, tilts, strains, and gravity. Gains afforded by high-density networks of high-quality geodetic instrumentation have allowed for the separation of tectonic signals from hydrological, seasonal, and anthropogenic signals which has led to the advancement of derivative data products such as soil moisture, snow depth, precipitable water, and ionospheric perturbations. We seek abstracts that are on the cutting edge of geodetic data analysis, and which push the boundaries of temporal and spatial resolution with aims to solve problems of societal relevance.
Primary Convener: Andrew J Barbour, USGS, Earthquake Science Center, Moffett Field, CA, United States
Convener: Brendan Crowell, University of Washington, Department of Earth and Space Sciences, Seattle, United States
Chairs: Andrew J Barbour, USGS, Earthquake Science Center, Moffett Field, CA, United States and Brendan Crowell, University of Washington, Department of Earth and Space Sciences, Seattle, United States
OSPA Liaison: Andrew J Barbour, USGS, Earthquake Science Center, Moffett Field, CA, United States
Cross-Listed:
- EP - Earth and Planetary Surface Processes
- H - Hydrology
- S - Seismology
- T - Tectonophysics
Index Terms:
1211 Non-tectonic deformation [GEODESY AND GRAVITY]
1294 Instruments and techniques [GEODESY AND GRAVITY]
1295 Integrations of techniques [GEODESY AND GRAVITY]
1299 General or miscellaneous [GEODESY AND GRAVITY]
Abstracts Submitted to this Session:
Continental-scale water fluxes from continuous GPS observations of Earth surface loading (Invited) (59357)
See more of: Geodesy