Differences in Accuracies and Fitting Surface Planes of Two Error Models for NRTK in GPSnet

In the past years, several regional error models for the network RTK (NRTK) approach have been proposed, investigated and used. Most of the studies are based on one single model to test the model's performance in a reference network or a few reference networks. Very limited research has been conducted to evaluate performance differences of different error models in the same network using the same test dataset. It is difficulty to predict which of the models will outperform the others for a specific network since different reference networks have different error characteristics. For example, the multipath effect (or the station specific error), the spatial atmospheric pattern, and the scale of the ionospheric disturbance may be different in different networks. These factors may cause differences in performance among different error models.

[1]  Lambert Wanninger,et al.  The Performance of Virtual Reference Stations in Active Geodetic GPS-networks under Solar Maximum Conditions , 1999 .

[2]  Xiaoming Chen,et al.  Improving Real Time Positioning Efficiency Using the Singapore Integrated Multiple Reference Station Network (SIMRSN) , 2000 .

[3]  S. Schaer Mapping and predicting the Earth's ionosphere using the Global Positioning System. , 1999 .

[4]  S Wu Performance of regional atmospheric error models for NRTK in GPSnet and the implementation of a NRTK system , 2009 .

[5]  J. F. McLellan,et al.  Carrier Phase Based Regional Area Differential GPS for Decimeter-Level Positioning and Navigation , 1997 .

[6]  Chris Rizos,et al.  Comparison of Interpolation Algorithms in Network‐Based GPS Techniques , 2003 .

[7]  Christopher Champion Varner,et al.  DGPS carrier phase networks and partial derivative algorithms , 2000 .

[8]  G. Fotopoulos Parameterization of Carrier Phase Corrections Based on a Regional Network of Reference Stations , 2000 .

[9]  Gerhard Wübbena,et al.  Reducing Distance Dependent Errors for Real-Time Precise DGPS Applications by Establishing Reference Station Networks , 1996 .

[10]  J. Raquet Development of a Method for Kinematic GPS Carrier-Phase Ambiguity Resolution Using Multiple Reference Receivers , 1998 .

[11]  Georgia Fotopoulos,et al.  An Overview of Multi-Reference Station Methods for cm-Level Positioning , 2001, GPS Solutions.

[12]  G. Fotopoulos Parameterization of DGPS Carrier Phase Errors Over a Regional Network of Reference Stations , 2000 .