Unlike basic processing engines that assume standard atmospheric conditions, Bernese employs rigorous mathematical models to account for minuscule physical effects. It corrects for solid Earth tides, ocean tide loading, pole tides, relativistic effects, antenna phase center variations, and atmospheric delays. The result is the ability to determine positions, velocities, and deformations of the Earth's crust with millimeter-to-submillimeter accuracy.
Bernese is a research-grade software package used for the processing of data from Global Navigation Satellite Systems (GNSS), including GPS, GLONASS, Galileo, and BeiDou. Unlike real-time navigation systems, Bernese is primarily a , meaning it takes recorded data and applies complex models to reach the highest possible accuracy.
Unlike basic processing engines that assume standard atmospheric conditions, Bernese employs rigorous mathematical models to account for minuscule physical effects. It corrects for solid Earth tides, ocean tide loading, pole tides, relativistic effects, antenna phase center variations, and atmospheric delays. The result is the ability to determine positions, velocities, and deformations of the Earth's crust with millimeter-to-submillimeter accuracy.
Bernese is a research-grade software package used for the processing of data from Global Navigation Satellite Systems (GNSS), including GPS, GLONASS, Galileo, and BeiDou. Unlike real-time navigation systems, Bernese is primarily a , meaning it takes recorded data and applies complex models to reach the highest possible accuracy. bernese gnss