Modifying the stochastic model to mitigate GPS systematic errors in relative positioning
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Data
2007-12-01
Autores
Alves, D. B M [UNESP]
Monico, J. F G [UNESP]
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Resumo
The GPS observables are subject to several errors. Among them, the systematic ones have great impact, because they degrade the accuracy of the accomplished positioning. These errors are those related, mainly, to GPS satellites orbits, multipath and atmospheric effects. Lately, a method has been suggested to mitigate these errors: the semiparametric model and the penalised least squares technique (PLS). In this method, the errors are modeled as functions varying smoothly in time. It is like to change the stochastic model, in which the errors functions are incorporated, the results obtained are similar to those in which the functional model is changed. As a result, the ambiguities and the station coordinates are estimated with better reliability and accuracy than the conventional least square method (CLS). In general, the solution requires a shorter data interval, minimizing costs. The method performance was analyzed in two experiments, using data from single frequency receivers. The first one was accomplished with a short baseline, where the main error was the multipath. In the second experiment, a baseline of 102 km was used. In this case, the predominant errors were due to the ionosphere and troposphere refraction. In the first experiment, using 5 minutes of data collection, the largest coordinates discrepancies in relation to the ground truth reached 1.6 cm and 3.3 cm in h coordinate for PLS and the CLS, respectively, in the second one, also using 5 minutes of data, the discrepancies were 27 cm in h for the PLS and 175 cm in h for the CLS. In these tests, it was also possible to verify a considerable improvement in the ambiguities resolution using the PLS in relation to the CLS, with a reduced data collection time interval. © Springer-Verlag Berlin Heidelberg 2007.
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Functional and Stochastic models, Penalised least squares, Systematic errors, Atmospheric effects, Least Square, Least square methods, Least squares techniques, Relative positioning, Semi-parametric modeling, Single-frequency receivers, Troposphere refraction, Data acquisition, Errors, Experiments, Geodesy, Geodetic satellites, Ionosphere, Least squares approximations, Stochastic models, Tools, Global positioning system
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International Association of Geodesy Symposia, v. 130, p. 166-171.