Orbit Optimization for Future Satellite Gravity Field Missions
Influence of the Time Variable Gravity Field Models in a Genetic Algorithm Approach
- verfasst von
- Siavash Iran Pour, Nico Sneeuw, Matthias Weigelt, Alireza Amiri-Simkooei
- Abstract
Many studies in the past have discussed potential orbit configurations of future satellite gravity missions. Most of those works have targeted orbit optimization of the satellite missions of the next generation in the so-called Bender formation. The studies have investigated the impact of the Keplerian orbital parameters, especially the influence of the repeat orbits and mission altitude of both satellite pairs and the inclination of the second pair in Bender formation on the satellite configurations’ gravity field recovery quality performance. Obviously, the search space for the orbit optimization in the Bender formation is vast and, therefore, different approaches have been suggested for optimal orbit design. Among approaches, however, different assumptions about input geophysical models as well as the error models into the simulation software play a role. Our paper shows how different assumptions for input models change the orbit optimization results. For this purpose, the genetic algorithm has been utilized for orbit optimization of the Bender formation where different input models were considered. Those input models include (1) the updated ESA geophysical models, and (2) error models for the Ocean Tide (OT error) and Atmosphere-Ocean (AO error). Here, we focus on the impact of the models on relative difference of the longitude of ascending nodes between the two pairs in Bender formation. The results of the paper clearly state that our current and future knowledge about signal and error models can significantly affect the orbit optimization problem.
- Organisationseinheit(en)
-
Institut für Erdmessung
- Externe Organisation(en)
-
University of Isfahan
Universität Stuttgart
Delft University of Technology
- Typ
- Aufsatz in Konferenzband
- Seiten
- 3-9
- Anzahl der Seiten
- 7
- Publikationsdatum
- 2021
- Publikationsstatus
- Veröffentlicht
- Peer-reviewed
- Ja
- ASJC Scopus Sachgebiete
- Computer in den Geowissenschaften, Geophysik
- Elektronische Version(en)
-
https://doi.org/10.1007/1345_2019_79 (Zugang:
Geschlossen)