Title :
Time transfer using GPS carrier phase with multi-channel common-view
Author :
Tu, K.-Y. ; Liao, C.-S. ; Chang, F.-R. ; Wang, L.-S.
Author_Institution :
Lab. of Nat. Stand. Time & Frequency, Chunghwa Telecom Co. Ltd., Taiwan
Abstract :
Time transfer using GPS carrier phase measurements based on dual-frequency multi-channel common-view techniques is presented. By using the ionosphere-free combination of the carrier phase and performing the single-difference, we can obtain the relationship between two hydrogen-maser clocks. Moreover, combining the sub-nanosecond results of the multi-channel common-view based on dual-frequency code observations with the single-difference calculations, we resolve the ambiguity of the single-difference equation for time transfer. The short-baseline tests with common hydrogen-maser clock show that our methodology has a frequency stability of a few parts in 10/sup 16/ for averaging times of one day.
Keywords :
Atomic clocks; Frequency stability; Global Positioning System; Phase measurement; Synchronization; Time measurement; Transfer standards; GPS carrier phase; dual-frequency; frequency stability; hydrogen-maser clock differences; ionosphere-free combination; multichannel common-view; short-baseline tests; single-difference; single-difference calculations; time transfer; Clocks; Delay effects; Equations; Frequency; Global Positioning System; Oscillators; Phase measurement; Satellites; Telecommunication standards; Virtual manufacturing;
Conference_Titel :
Precision Electromagnetic Measurements Digest, 2000 Conference on
Conference_Location :
Sydney, NSW, Australia
Print_ISBN :
0-7803-5744-2
DOI :
10.1109/CPEM.2000.850883
