NERC BNSC ILRS NSGF Home Page IGS
NERC Space Geodesy Facility
Daily quality checks on Herstmonceux GPS and GLONASS data (HERS and HERT)
 




NERC Space Geodesy Facility 
staff  manage two geodetic-quality, continuously operating, GNSS receivers;
an Ashtech
Z12 receiver (International GPS Service
 (IGS) Station HERS) and a Leica GRX-1200GGPRO joint GPS/GLONASS receiver
(
 IGS Station HERT).


Station HERS contributes daily, 30-second RINEX data to IGS; Station HERT
contributes both hourly and daily RINEX GPS/GLONASS data to IGS.
The system
is also being used to take part in the  
 
EUREF-IP realtime programme 
to stream data directly
into the internet for rapid re-broadcast for general real-time navigational
applications.


 
The quality of the data obtained by these receivers is monitored 
routinely via IGS coordinate and orbit determination solutions.
However, every effort continues to be made on site to ensure the 
quality of the SGF data.



Our QC analysis takes two forms:

 Firstly, from each daily, 
30-second RINEX 
data file for the two receivers is extracted the times during which the GPS
and GLONASS satellites are being tracked by the receivers. For each of these
times, the local altitude and azimuth of the respective satellites are
computed using approximate orbital elements. For each satellite, a 'sky map'
is then plotted in a unique colour
, GPS tracks as thin lines, GLONASS ones as thick lines. 
Visual inspection of the Z12 and Leica GRX 
plots then reveal any
possible problems with breaks in tracking, local obscuration, etc. 




The plots for each day are available here from about 0600UT daily:




Daily Alt/Az plot for receiver HERS  





Daily Alt/Az plot for receiver HERT 






Secondly, high-order polynomials are fitted to and removed from the
range-type observables for each satellite pass from the two daily RINEX
files. This process, originally designed and implemented by Andrew Sinclair, 
removes the varying range signatures and thus reveals
random variations in range that may be indicative of system problems.


The program reads the quantities
 P1-code pseudo range and L1 phase
 and it analyses the quantities
           F1 = P1-code pseudo range and 
           F2 = L1 phase - P1-code pseudo range.


 A polynomial is fitted to and removed from F1.

 The quantity F2 is taken as the difference of the phase and the pseudo-range,
 to remove the range-like signature and to cancel the dither.



 The quantities F1 (with polynomials removed) and F2 are plotted on top of
 each other in GREEN and BLUE resp. F1 is the rapidly varying quantity,
 showing the dither, and F2 is the smoothly varying curve.




 The vertical bars on the plots mark discontinuities in the phase data where
 tracking was lost. 
As an indication of scale, these vertical bars are equivalent to 25 metres
 on the scale that the dither is plotted, and 6 metres on the scale that
 the phase is plotted.



These plots for each day are available here from about 0600UT daily:




Daily 'range' QC plot for receiver HERS 





Daily 'range' QC plot for receiver HERT 








home