Title :
Long baseline 3 frequency differential GNSS
Author :
Teunissen, P.J.G. ; Jonkman, N.F. ; Joosten, P. ; Tiberius, C.C.J.M.
Author_Institution :
Dept. of Math. Geodesy & Positioning, Delft Univ. of Technol., Netherlands
Abstract :
Ambiguity resolution is the key to fast high-precision relative GNSS positioning. Once the ambiguities have been resolved successfully as integers, the corresponding carrier phase measurements will start to act as if they were high precision range measurements, thereby allowing the parameters of interest, such as baseline-coordinates, to be estimated with a comparable high precision. In order to enhance the ambiguity resolution performance, both modernised GPS and the future European Galileo system are intended to transmit signals on three instead of two navigational frequencies. In this contribution the ambiguity resolution performance of the current two-frequency GPS and the modernised three-frequency GPS are analyzed for long baselines, i.e. baselines for which the atmospheric distortions can not be neglected
Keywords :
Global Positioning System; ambiguity resolution; atmospheric distortion; baseline-coordinates; carrier phase measurements; fast high-precision relative GNSS positioning; future European Galileo system; high precision range measurements; long baseline 3 frequency differential GNSS; modernised GPS; navigational frequencies; Atmospheric modeling; Frequency; Geodesy; Geophysical measurements; Global Positioning System; Performance analysis; Phase estimation; Phase measurement; Satellite navigation systems; Signal resolution;
Conference_Titel :
Position Location and Navigation Symposium, IEEE 2000
Conference_Location :
San Diego, CA
Print_ISBN :
0-7803-5872-4
DOI :
10.1109/PLANS.2000.838277
