Physics
Scientific paper
Nov 2004
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2004georl..3122608c&link_type=abstract
Geophysical Research Letters, Volume 31, Issue 22, CiteID L22608
Physics
34
Geodesy And Gravity: Seismic Deformations (7205), Geodesy And Gravity: Satellite Orbits, Geodesy And Gravity: Instruments And Techniques, Seismology: Earthquake Ground Motions And Engineering
Scientific paper
High-rate (1-Hz) Global Positioning System (GPS) data are beginning to be used for a variety of geophysical monitoring purposes, including seismology. Improving the precision of high-rate GPS position estimates will increase the value of these 1-Hz GPS monitoring systems. One technique that has been used to improve high-rate GPS positioning takes advantage of the ground track repeat period of the satellites. This study investigates the GPS orbital repeat period and determines that it varies for each satellite and differs significantly from the generally assumed sidereal period. Orbit repeat periods are calculated and used to filter 1-Hz GPS position estimates. Using the calculated orbit repeat period significantly reduces low frequency (0.001-0.04 Hz) errors in 1-Hz GPS position estimates.
Axelrad Penina
Bilich Andria
Choi Kyuhong
Larson Kristine M.
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