Daniel Rieser
Graz University of Technology
22 Papers
185 Citations
Daniel Rieser is an academic researcher from Graz University of Technology. The author has contributed to research in topics: Gravitational field & Gravity (chemistry). The author has an hindex of 7, co-authored 22 publications.
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Papers
The new combined satellite only model GOCO03s
Torsten Mayer-Gürr,Daniel Rieser,Eduard Hoeck,Jan Martin Brockmann,Wolf-Dieter Schuh,Ina Krasbutter,Jürgen Kusche,S. Maier,Sandro Krauss,W. Hausleitner,Oliver Baur,Adrian Jäggi,Ulrich Meyer,Lars Prange,Roland Pail,Thomas Fechner,Thomas Gruber +16 more
- 09 Oct 2012
171
•Journal Article
The combined satellite-only global gravity field model GOCO02S
Helmut Goiginger,Eduard Höck,Daniel Rieser,T. Mayer Gürr,Andrea Maier,Sandro Krauss,Roland Pail,Thomas Fecher,Th. Gruber,Jan Martin Brockmann,Ina Krasbutter,Wolf-Dieter Schuh,Adrian Jäggi,Lars Prange,W. Hausleitner,Oliver Baur,Jürgen Kusche +16 more
TL;DR: In this paper, the authors proposed a new series of global gravity models computed by the GOCO consortium, which consists of two months of GOCE gradiometry data and the most recent GRACE-only model ITG-Grace2010s.
89
Relation between GRACE-derived surface mass variations and precipitation over Australia
TL;DR: In this article, surface mass changes obtained from time-variable gravity observations of the Gravity Recovery and Climate Experiment (GRACE) satellite mission and precipitation data from the Australian Bureau of Metrology and the Tropical Rainfall Measurement Mission are analyzed over the Australian continent to determine whether there is a statistically significant correlation between them.
53
GROOPS: A software toolkit for gravity field recovery and GNSS processing
Torsten Mayer-Gürr,Saniya Behzadpour,Annette Eicker,Matthias Ellmer,Matthias Ellmer,Beate Koch,Sandro Krauss,Christian Pock,Daniel Rieser,Sebastian Strasser,Barbara Süsser-Rechberger,Norbert Zehentner,Andreas Kvas +12 more
TL;DR: The Gravity Recovery Object Oriented Programming System (GROOPS) as discussed by the authors is a toolkit written in C++ that enables the user to perform core geodetic tasks such as gravity field recovery from satellite and terrestrial data, the determination of satellite orbits from global navigation satellite system (GNSS) measurements, and the computation of GNSS constellations and ground station networks.
35
•Journal Article
The new combined satellite only model GOCO05s
Torsten Mayer-Gürr,Andreas Kvas,Beate Klinger,Daniel Rieser,Norbert Zehentner,Roland Pail,Thomas Gruber,Thomas Fecher,Moritz Rexer,Wolf-Dieter Schuh,Jürgen Kusche,Jan Martin Brockmann,Ina Loth,Silvia Müller,Annette Eicker,Judith Schall,Oliver Baur,Eduard Höck,Sandro Krauss,Adrian Jäggi,Ulrich Meyer,Lars Prange,Andrea Maier +22 more
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