Bernese Gnss [top]

Monitor mm‑level uplift of the Scandinavian peninsula due to Glacial Isostatic Adjustment (GIA).

The Bernese GNSS Software: A Cornerstone of Precision Geodesy bernese gnss

In the quiet, wood-paneled offices of the Astronomical Institute of the University of Bern Monitor mm‑level uplift of the Scandinavian peninsula due

Originally developed in the late 1980s for GPS (then simply "Bernese GPS Software"), it has evolved over five major versions (currently version 5.2 and the upcoming 6.0) to support all major GNSS constellations: GPS, GLONASS, Galileo, BeiDou, QZSS, and NavIC. It also supports augmentation systems and Signal-in-Space (SIS) analysis. The signal from a satellite to a receiver

The signal from a satellite to a receiver passes through the ionosphere and the troposphere. These layers delay the signal, introducing errors.

Processing GNSS data is rarely a single-step calculation. It usually involves:

all working in unison. The software’s modular design allowed him to peel back layers of atmospheric interference, modeling the ionosphere and troposphere with surgical accuracy. The Global Pulse