Title :
Ensemble time and frequency stability or GPS satellite clocks
Author :
Allan, David W. ; Peppler, Trudi K.
Author_Institution :
NBS, Boulder, CO, USA
Abstract :
In anticipation of cross-link ranging in the Global Positioning System (GPS) and the establishing of GPS ensemble time, the frequency stability characteristics of the clocks in the constellation were investigated. Once those characteristics were ascertained, the clock readings were optimally combined using the NBS time-scale-algorithm software to generate a GPS space clock ensemble. Frequency drifts of some parts in 1016 per day were observed in the GPS cesium beam frequency standards on board the space vehicles. The GPS space clock ensemble frequency stability reached about 2 parts in 1014 . This is comparable to some of the best clock ensembles at major timing centers throughout the world
Keywords :
clocks; frequency measurement; frequency stability; measurement standards; satellite relay systems; space vehicles; Cs; GPS satellite clocks; Global Positioning System; NBS time-scale-algorithm software; cross-link ranging; frequency drift; frequency stability; frequency standards; measurement standards; satellite relay systems; space vehicles; 1f noise; Clocks; Frequency conversion; Frequency modulation; Global Positioning System; NIST; Satellites; Space vehicles; Stability; Timing;
Conference_Titel :
Frequency Control Symposium, 1988., Proceedings of the 42nd Annual
Conference_Location :
Baltimore, MD
DOI :
10.1109/FREQ.1988.27641
