Data

Tools

Indexes

Applications

Experiments

Open Source Science

Recent Releases of gnss_rr

gnss_rr - Continuous estimation of near-surface snow height, mass, and density on a moving surface using combined GNSS reflectometry/refractometry (GNSS-RR)

Revised and extended:

Steiner, L. (2021). Continuous estimation of snow/firn accumulation, surface mass, and density on a moving surface using combined GNSS reflectometry/refractometry (GNSS-RR). (Version 1.0) [Computer software] https://github.com/lasteine/GNSS_RR.git

NEW in v2.0:

  • code structure
  • extension by a second reference antenna for GNSS refractometry (JAVAD)
  • merging split files of Leica base and rover
  • correction of the copy, convert and merge function for low-cost u-blox observation files
  • post-processing merged Leica files with RTKLIB
  • corrected sensor mast heightening (SMH) event detection
  • corrected GNSS refractometry baseline calibration to represent SWE values
  • calculation of GNSS refractometry footprint
  • corrected GNSS-IR calibration
  • import of meteorologic and synoptic observations
  • calculation of exponential fit of SWE versus snow height and density versus snow height
  • calculation of density uncertainty
  • calculation of snow height, SWE and density of a new snow layer

v2.1:

  • updated title

- Python
Published by LMGrewe over 2 years ago

gnss_rr - Continuous estimation of near-surface snow height, mass, and density on a moving surface using combined GNSS reflectometry/refractometry (GNSS-RR)

Revised and extended:

Steiner, L. (2021). Continuous estimation of snow/firn accumulation, surface mass, and density on a moving surface using combined GNSS reflectometry/refractometry (GNSS-RR). (Version 1.0) [Computer software] https://github.com/lasteine/GNSS_RR.git

NEW in v2.0: - code structure - extension by a second reference antenna for GNSS refractometry (JAVAD) - merging split files of Leica base and rover - correction of the copy, convert and merge function for low-cost u-blox observation files - post-processing merged Leica files with RTKLIB - corrected sensor mast heightening (SMH) event detection - corrected GNSS refractometry baseline calibration to represent SWE values - calculation of GNSS refractometry footprint - corrected GNSS-IR calibration - import of meteorologic and synoptic observations - calculation of exponential fit of SWE versus snow height and density versus snow height - calculation of density uncertainty - calculation of snow height, SWE and density of a new snow layer

- Python
Published by LMGrewe over 2 years ago