PPP-static
Prices-Point-Positioning static method and .sp3 file interpolator
Precise point positioning (PPP) stands out as an optimal approach for providing standalone static and kinematic geodetic point positioning solutions using all the available GNSS constellations. Combining precise satellite orbits and clocks with un-differenced, dual-frequency, pseudo-range and carrier-phase observables, PPP is able to provide position solutions at centimeter-level precision. PPP offers an attractive alternative to Differential Global Navigation Satellite System (DGNSS), with the advantage that it does not require simultaneous observations from multiple stations, i.e., it only needs a single geodetic receiver. In practice, PPP makes use of a network of reference stations in order to compute precise estimates of GNSS satellites orbits and clock errors. Nevertheless, it requires fewer reference stations globally distributed as compared with classic differential approaches (e.g. Real Time Kinematics, RTK), and one set of precise orbit and clock data (computed by a processing center) is valid for all users everywhere. Furthermore, as the precise orbits and clocks are calculated from a global network of reference stations, the same set of satellites is simultaneously observed by multiple stations, which enables PPP to provide position solutions rather robust to individual reference station failures.