Assessing the impact of the atmosphere on a network of active referents GNSS-stations

2010;
: pp. 17-21
Authors:
1
Department of Urban Construction and Management, Uzhhorod National University, Uzhhorod, 88000, Ukraine.

The estimations of the influence of the troposphere on the positioning accuracy of a network of active reference stations ZAKPOS.

  1. Niell A.E. Global mapping functions for the atmospheric delay at radio wavelengths // Journal of Geophysical Research, Vol. 101, No. B2, 1996. – R. 3227–3246.
  2. Saastamoinen J. Atmospheric correction for the troposphere and stratosphere in radio ranging of satellites // Geophysical Monograph, Vol. 15, 1972. – R. 247–251.
  3. Skidmore T. and F. Van Graas. An investigation of tropospheric errors on differential GNSS accuracy and integrity // Proceedings of ION GNSS 2004, Long Beach, California, 21–24 September 2004. – R. 2752–2760.
  4. Herring T.A., Modeling atmospheric delays in the analysis of space geodetic data, Proceedings of Refraction of Transatmospheric Signals in Geodesy // Netherlands Geodetic Commission Series, Vol. 36, 1992. – R. 157–164.
  5. Brunner F.K. and Welsch W.M. Effect of the troposphere on GPS measurements // GPS World, Vol. 4, No. 1, January 1993. – R. 42–51.
  6. Wübbena G., Bagge A., Seeber G., Volker B. and Hankemeier P. (1996) Reducing Distance Dependent Errors for Real-Time Precise DGPS Applications by Establishing Reference Station Networks // In Proceedings of the 9th International Technical Meeting of the Satellite Division of the Institute of Navigation (ION GPS-96). – R. 1845–1852.
  7. Schaer S., Beutler G., Rothacher M., Brockmann A., Wiget A. and Wild U. (1999). The Impact of the Atmosphere and Other Systematic Errors on Permanent GPS Networks. Presented at the IAG Symposium of Positioning, Birmingham, UK, July 21, 1999.
  8. E-GVAP: http://egvap.dmi.dk
  9. ZAKPOS – merezha referencnyh GPS stancij –http://zakpos.zakgeo.com.ua.