12 Works

Operational GNSS position and tropospheric delay estimates submitted to EUREF

Carine Bruyninx
GNSS positions and tropospheric delays estimated operationally by the Royal Observatory of Belgium (ROB) for a subset of the EUREF Permanent GNSS Network stations and submitted to EUREF for computation of the daily and/or weekly combined EUREF position solution and combined EUREF tropospheric product.

ROB GNSS Network Data

Carine Bruyninx & Pascale Defraigne
Observations and metadata from continuously observing GNSS tracking stations operated by the Royal Observatory of Belgium (ROB)

ROB's operational quasi real-time GNSS-based tropospheric delay models, grids, and maps

Eric Pottiaux
GNSS-based tropospheric delays models, grids, and maps computed operationally by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) from the quasi real-time tropospheric delay estimated in the context of his participation to the EUMETNET EIG GNSS water VApor Program (E-GVAP). These tropospheric delay maps are generated according to the characteristics of the quasi real-time ROB contribution to E-GVAP (i.e. the models, grids, and maps corresponding to the ROBQ contribution focus on...

The Gravity Database for Belgium

Seismology-Gravimetry And National Geographic Institute
This dataset contains Belgian relative gravity measurements.

ROB's operational real-time GNSS-based tropospheric delay estimates

Eric Pottiaux
GNSS-based tropospheric delays estimated operationally in real-time by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) in the framework of its participation to the COST Action ES1206 GNSS4SWEC and the IAG WG 4.3.7 "Real-time GNSS Troposphere Monitoring". These tropospheric delays are computed in real-time from a world-wide network of GNSS stations which focuses on the BENELUX and the U.K. Estimates have a time resolution of 30 seconds and aim to support...

ROB's operational European near real-time GNSS-based tropospheric delay models, grids, and maps

Eric Pottiaux
GNSS-based tropospheric delays models, grids, and maps computed operationally by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) from the near real-time tropospheric delay estimated in the context of his participation to the EUMETNET EIG GNSS water VApor Program (E-GVAP). These tropospheric delay maps are generated according to the characteristics of the ROB contributions to E-GVAP (e.g. the models, grids, and maps corresponding to the ROBH contribution focus on Europe, are...

ROB's operational near real-time GNSS-based tropospheric delay estimates submitted to E-GVAP

Eric Pottiaux
GNSS-based tropospheric delays estimated operationally in quasi real-time by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) in the framework of his participation to the EUMETNET EIG GNSS water VApor Program (E-GVAP). These tropospheric delays are computed every 15 minutes from a network of GNSS stations focused on the BENELUX and the U.K. Estimates have a time resolution of 15 minutes and aim to support nowcasting application in that area.

ROB's operational European near real-time GNSS-based tropospheric delay estimates submitted to E-GVAP

Eric Pottiaux
GNSS-based tropospheric delays estimated operationally in near real-time by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) in the framework of his participation to the EUMETNET EIG GNSS water VApor Program (E-GVAP). These tropospheric delays are computed every 1 hour from a pan-European network of GNSS stations with a time resolution of 15 min to support national and European NWP models.

ROB's operational post-processed GNSS-based tropospheric delay maps

Eric Pottiaux
GNSS-based final tropospheric delays models, grids, and maps produced operationally by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) from the final (daily) tropospheric delay estimated in the context of his participation to the EUMETNET EIG GNSS water VApor Program (E-GVAP). These tropospheric delay models, grids, and maps are generated on a daily basis, covers Europe, and have a time resolution of 1 hour and a spatial resolution of 0.1° x...

ROB's operational final GNSS position and tropospheric delay estimates computed in the context of its E-GVAP participation

Eric Pottiaux
GNSS-based final positions and tropospheric delays estimated operationally by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) in the framework of his participation to the EUMETNET EIG GNSS water VApor Program (E-GVAP). These daily precise positions and hourly precise tropospheric delays are computed with a post-processing scheme applied on a very large network of GNSS stations world-wide (as of today 1200+ stations). The final positions are used as station coordinates for...

GOP's consolidated multi-GNSS navigation data archive

Jan Dousa
Globally consolidated multi-GNSS navigation files generated by Geodetic Observatory Pecny (GOP) of the Research Institute of Geodesy, Topography and Cartography (RIGTC) in suport for operational GNSS data quality control, signal-in-space error monitoring and data processing.

ROB's operational world-wide near real-time GNSS-based tropospheric delay estimates submitted to E-GVAP

Eric Pottiaux
GNSS-based tropospheric delays estimated operationally in near real-time by the Royal Observatory of Belgium (ROB) - Solar-Terrestrial Centre of Excellence (STCE) in the framework of his participation to the EUMETNET EIG GNSS water VApor Program (E-GVAP). These tropospheric delays are computed every 1 hour from a world-wide network of GNSS stations with a time resolution of 15 min to support global NWP models and regional NWP models outside Europe.

Registration Year

  • 2018
    1
  • 2019
    11

Resource Types

  • Dataset
    12