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Setting up the precise relative GPS model
Procedure for solving the GPS model
The ionospheric error in GPS observations
7 other sections not shown
ambiguity resolution ambiguity success rate ambiguity-fixed assumed atmospheric baseline bending effects biases bootstrapping Chap clock error clock parameters closed-form expressions code observations computed coordinates cross-correlation DD ionospheric delays decorrelated denoted design matrix double-difference double-differenced dual-frequency epochs ﬁrst ﬁxed frequency function geodetic geomagnetic geomagnetic storm geometry-based model geometry-free model Global Positioning System GPS applications GPS model GPS observations instantaneous integer ambiguities integer bootstrapping integer least-squares integer rounding integer solution interpolation iono ionosphere-fixed ionosphere-float model ionosphere-weighted model ionospheric effects ionospheric error ionospheric pseudo-observables ionospheric standard deviation network processing network station normal distribution normal matrix number of epochs number of satellites observation equations Odijk phase and code phase observations precision priori ionospheric pull-in region rank deficiency receiver clock refractive index relative GPS satellite clock Sect solar maximum span stochastic model Teunissen thesis tropospheric delays undifferenced user’s vc-matrix vector vertical delay VRS observations VTEC zenith angle