DocumentCode
870762
Title
Continuous time transfer using GPS carrier phase
Author
Dach, Rolf ; Schildknecht, Thomas ; Springer, Tim ; Dudle, Gregor ; Prost, Leon
Author_Institution
Astronomical Inst., Bern Univ., Switzerland
Volume
49
Issue
11
fYear
2002
Firstpage
1480
Lastpage
1490
Abstract
The Astronomical Institute of the University of Berne is hosting one of the Analysis Centers (AC) of the International GPS Service (IGS). A network of a few GPS stations in Europe and North America is routinely analyzed for time transfer purposes, using the carrier phase observations. This work is done in the framework of a joint project with the Swiss Federal Office of Metrology and Accreditation (METAS). The daily solutions are computed independently. The resulting time transfer series show jumps of up to 1 ns at the day boundaries. A method to concatenate the daily time transfer solutions to a continuous series was developed. A continuous time series is available for a time span of more than 4 mo. The results were compared with the time transfer results from other techniques such as two-way satellite time and frequency transfer. This concatenation improves the results obtained in a daily computing scheme because a continuous time series better reflects the characteristics of continuously working clocks.
Keywords
Global Positioning System; clocks; frequency stability; frequency standards; synchronisation; time series; GPS carrier phase; International GPS Service; concatenation; continuous series; continuous time transfer; continuously working clocks; day boundaries; long-term stability; pseudorange measurements; time transfer series; transatlantic time transfer; Clocks; Europe; Extraterrestrial measurements; Frequency; Global Positioning System; International collaboration; Metrology; North America; Satellites; Surfaces; Calibration; Computer Simulation; Environmental Monitoring; Europe; Geography; International Cooperation; Models, Theoretical; North America; Radio Waves; Satellite Communications; Sensitivity and Specificity; Spacecraft; Stochastic Processes; Time Factors;
fLanguage
English
Journal_Title
Ultrasonics, Ferroelectrics, and Frequency Control, IEEE Transactions on
Publisher
ieee
ISSN
0885-3010
Type
jour
DOI
10.1109/TUFFC.2002.1049729
Filename
1049729
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