The software can process all principal observables recorded by high-precision geodetic receivers, including both code and carrier-phase data on the L1 and L2 carriers. It is equally adept at processing single-frequency or dual-frequency data, and can combine data from GPS-only, GLONASS-only, or mixed multi-constellation receivers in a single, consistent solution.
: Adheres to up-to-date, internationally adopted geodetic standards. Universität Bern Primary Applications Institutional Activities : Used by the Center for Orbit Determination in Europe (CODE) for international activities within the International GNSS Service (IGS) EUREF Permanent Network (EPN) Regional Modeling
Accessing the software involves a paid license, as it is a commercial product. It is distributed exclusively by for commercial purposes, though AIUB handles educational licenses. bernese gnss
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The Bernese GNSS (Global Navigation Satellite System) software is a widely used, open-source software package for processing and analyzing GNSS data. Developed at the Astronomical Institute of the University of Bern, Switzerland, it has become a standard tool in the field of geodesy, geophysics, and surveying. The software can process all principal observables recorded
For local surveys and geodetic control, the software excels at computing precise vector components between pairs of receivers. Its algorithms are fine-tuned to handle baselines of any length with exceptional fidelity.
The software is renowned for its modular design, containing over 100 individual programs Developed at the Astronomical Institute of the University
Converting raw receiver data (RINEX format) into internal Bernese formats. Code and phase observations are checked for cycle slips and data gaps.
In the realm of precise GNSS data processing, few tools command the respect and widespread application of the . Developed by the Astronomical Institute of the University of Bern (AIUB), this high-precision software package has been a standard in the geodetic and scientific community since the late 1980s. As of 2026, it remains a premier solution for analyzing data from global and regional GNSS networks.
: It processes data from multiple constellations, including GPS and GLONASS, with developing support for Galileo, BeiDou, and QZSS. Satellite Laser Ranging (SLR)
As of 2025, the GNSS landscape is evolving. Multiple constellations are now fully operational, and signals have become more robust. Future versions of Bernese GNSS are expected to focus on: