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Explore the analysis methods and processing schemes for real-time monitoring of satellite and station clock corrections, utilizing the RTIGS-Network data stream. Develop clock predictions, improve cycle slip detection, and enhance webpage functionality.
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R. Weber, M. Opitz, G. Thaler Real-Time quality control of IGS clocks and orbits Analysis Center Workshop 2008, June 2-6 Miami
IGU clock Integrity Monitoring RTIGS- Network: data stream used for real time monitoring of satellite plus station clock corrections Development of „RTR- Control“ 2
RTR- Processing Scheme • Input Data • Phase-smoothed Code Pseudoranges • IGU- Orbits/clocks • Estimation Model • if-LC+ Corrections, Least Squares Adjustment • Parameters (estimated every 15s) • Receiver- and Satellite Clock Corrections • Remaining • Range Residuals indicating multipath effects and orbit • deficiencies 3
Web-Portal Webpage - http://rtclocks.hg.tuwien.ac.at 4
RTR- Control in stable operation since begin 2007! • ongoing Developments • Improved cycle slip detection • choice of reference clock • integrate effort into RT-PP • deliver clock estimates to RT-PP • improve the webpage • derive satellite clock predictions and RT-orbits • RTIGS- Network • upgraded station number and distribution urgently • requested 21
Clock prediction Obtain satellite clock corrections from RTR-Control Update satllite specific state vector (3 coeff / sat.). Predict clock corrections for 6-hours interval (every 15 minutes/per satellite) GPS-RT-orbit determination Initialisation: Obtain coordinates XSAT and velocities VSAT from the IGS ultrarapid orbits (for each satellite) Input data from RTR-Control: corrected ranges, satellite and station clock corrections, formal errors of satellite and station clock corrections, data is available every 15 seconds! !Kalman-Filter approach! Calculation of Position and velocity every 15 seconds
Receiver CLock 24 RESULTS
Receiver Clock (reference) 25 RESULTS