Abstract
GNSS antennas have no fixed electrical reference point. The variation of the phase centre is modelled and tabulated in antenna calibration tables, which include the offset vector (PCO) and phase centre variation (PCV) for each frequency according to the elevations and azimuths of the incoming signal. Used together, PCV and PCO reduce the phase observations to the antenna reference point. The remaining biases, called the residual offsets, can be revealed by circulating and rotating the antennas on pillars. The residual offsets are estimated as additional parameters when combining the daily GNSS network solutions with full covariance matrix. We present a procedure for validating the antenna calibration tables. The dedicated test field, called Revolver, was constructed at Metsähovi. We used the procedure to validate the calibration tables of 17 antennas. Tables from the IGS and three different calibration institutions were used. The tests show that we were able to separate the residual offsets at the millimetre level. We also investigated the influence of the calibration tables from the different institutions on site coordinates by performing kinematic double-difference baseline processing of the data from one site with different antenna tables. We found small but significant differences between the tables.
Highlights
The GNSS antenna phase centre is a function of the direction of the incoming signal, and it is different for each antenna
During the EMRP SIB60 project, we developed an antenna test field and a procedure to validate the antenna calibration tables, which is based on circulating the antennas on concrete pillars
We tested the procedure and compared different calibrations using the data from eight Ashtech choke ring antennas, for which we had individual absolute calibration tables from three different institutes (IfE, Bonn, Geo++) and type calibration tables of IGS08
Summary
The GNSS antenna phase centre is a function of the direction of the incoming signal, and it is different for each antenna. It is an error source in precise positioning, and it should be corrected during data processing. The phase observations are reduced to the antenna reference point (ARP), a fixed physical place on an antenna. The phase centre correction (PCC) is normally divided into two parts, phase centre variation (PCV) and phase centre offset (PCO), which should be used together. The act of determining the phase centre corrections (PCC) for a GNSS antenna is called calibration. We introduce a method to validate GNSS antenna calibration tables.
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