The use of a Numerical Weather Model (NWM) to provide in situ atmosphere information for mapping functions of atmosphere delay has been evaluated using Very Long Baseline Interferometry (VLBI) data spanning eleven years. Parameters required by the IMF mapping functions (Niell 2000, 2001) have been calculated from the NWM of the National Centers for Environmental Prediction (NCEP) and incorporated in the CALC/SOLVE VLBI data analysis program. Compared with the use of the NMF mapping functions (Niell 1996) the application of IMF for global solutions demonstrates that the hydrostatic mapping function, IMFh, provides both significant improvement in baseline length repeatability and noticeable reduction in the amplitude of the residual harmonic site position variations at semidiurnal to long-period bands. For baseline length repeatability the reduction in the observed mean square deviations achieves 80 of the maximum that is expected for the change from NMF to IMF. On the other hand, the use of the wet mapping function, IMFw, as implemented using the NCEP data, results in a slight degradation of baseline length repeatability, probably due to the large grid spacing of the NWM that is used.
@article{arxiv.physics/0401118,
title = {Using a Numerical Weather Model to Improve Geodesy},
author = {A. Niell and L. Petrov},
journal= {arXiv preprint arXiv:physics/0401118},
year = {2007}
}
Comments
To be published in the Proceedings of the meeting Please find attached the manuscript for the Proceedings of "The State of GPS Vertical Positioning Precision: Separation of Earth Processes by Space Geodesy" held in Luxembourg in April 2003