- Combination strategy for consistent final, rapid and predicted Earth rotation parameters. Journal of Geodesy 97 (1), 2023 mehr… BibTeX Volltext ( DOI )
- Impacts of frequency-dependent instrument noise for next-generation gravimetric mission on determining temporal gravity field model. Journal of Geodesy 97 (3), 2023 mehr… BibTeX Volltext ( DOI )
- Performance of Galileo satellite products determined from multi-frequency measurements. Journal of Geodesy 97 (4), 2023 mehr… BibTeX Volltext ( DOI )
- The impacts of reducing atmospheric and oceanic de-aliasing model error on temporal gravity field model determination. Geophysical Journal International 234 (1), 2023, 210-227 mehr… BibTeX Volltext ( DOI )
- Small satellite formations and constellations for observing sub-daily mass changes in the Earth system. Geophysical Journal International 234 (3), 2023, 1550-1567 mehr… BibTeX Volltext ( DOI )
- GENESIS: co-location of geodetic techniques in space. Earth, Planets and Space 75 (1), 2023 mehr… BibTeX Volltext ( DOI )
- In-Orbit Performance of the GRACE Accelerometers and Microwave Ranging Instrument. Remote Sensing 15 (3), 2023, 563 mehr… BibTeX Volltext ( DOI )
- Space Gravity Missions: CHAMP, GRACE, GRACE-FO, and GOCE, Satellite Projects. In: Encyclopedia of Geodesy. Springer International Publishing, 2023 mehr… BibTeX Volltext ( DOI )
- Performance of Galileo satellite products determined from multi-frequency measurements. Journal of Geodesy 97, 2023 mehr… BibTeX Volltext ( DOI )
- Geodesy. De Gruyter (5th, completely revised edition. Aufl.), 2023 mehr… BibTeX Volltext ( DOI )
- Efficient variance component estimation for large-scale least-squares problems in satellite geodesy. Journal of Geodesy 96 (2), 2022 mehr… BibTeX Volltext ( DOI )
- Characterization and stabilization of the downward continuation problem for airborne gravity data. Journal of Geodesy 96 (4), 2022 mehr… BibTeX Volltext ( DOI )
- Potential of UT1–UTC transfer to the Galileo constellation using onboard VLBI transmitters. Journal of Geodesy 96 (10), 2022 mehr… BibTeX Volltext ( DOI )
- A new parallel algorithm for improving the computational efficiency of multi-GNSS precise orbit determination. GPS Solutions 26 (3), 2022 mehr… BibTeX Volltext ( DOI )
- Revisiting Force Model Error Modeling in GRACE Gravity Field Recovery. Surveys in Geophysics, 2022 mehr… BibTeX Volltext ( DOI )
- Geosynchronous satellites expanding a future GNSS satellite constellation: A precise orbit determination study. Advances in Space Research, 2022 mehr… BibTeX Volltext ( DOI )
- The GOP Analysis Center: DORIS contribution to ITRF2020. Advances in Space Research, 2022 mehr… BibTeX Volltext ( DOI )
- Ground-based laser momentum transfer concept for debris collision avoidance. Journal of Space Safety Engineering 9 (4), 2022, 612-624 mehr… BibTeX Volltext ( DOI )
- A proposed network of gamma-ray burst detectors on the global navigation satellite system <i>Galileo</i> G2. Astronomy & Astrophysics 664, 2022, A131 mehr… BibTeX Volltext ( DOI )
- Data-driven multi-step self-de-aliasing approach for GRACE and GRACE-FO data processing. Geophysical Journal International 232 (2), 2022, 1006-1030 mehr… BibTeX Volltext ( DOI )
- Precise orbit determination for a large LEO constellation with inter-satellite links and the measurements from different ground networks: a simulation study. Satellite Navigation 3 (22), 2022 mehr… BibTeX Volltext ( DOI )
- Geodetic SAR for Height System Unification and Sea Level Research—Results in the Baltic Sea Test Network. Remote Sensing 14 (14), 2022, 3250 mehr… BibTeX Volltext ( DOI )
- Hybrid Electrostatic–Atomic Accelerometer for Future Space Gravity Missions. Remote Sensing 14 (14), 2022, 3273 mehr… BibTeX Volltext ( DOI )
- Hybrid electrostatic-atomic accelerometer for future space gravity missions. , 2022 mehr… BibTeX Volltext ( DOI )
- Dilution of Precision (DOP) Factors for Evaluating Observations to Galileo Satellites with VLBI. In: International Association of Geodesy Symposia. Springer Berlin Heidelberg, 2022 mehr… BibTeX Volltext ( DOI )
Forschungseinrichtung Satellitengeodäsie
kollegiale Leitung:

Univ.-Prof. Dr.phil.nat. Urs Hugentobler

Univ.-Prof. Dr.techn. Mag.rer.nat. Roland Pail