Catégorie:User Manual 4.9 Orbit Propagation
De Wiki
Révision de 6 mai 2022 à 07:25 par Admin (discussion | contributions) (Page créée avec « == Introduction == center <center><blockquote>I shall now recall to mind that the motion of the<br> heavenly bodies is circular, since the motion<... »)
Sommaire
Introduction
I shall now recall to mind that the motion of the
heavenly bodies is circular, since the motion
Mikołaj Kopernik (1473 – 1543)
appropriate to a sphere is rotation in a circle.
This section is a short presentation of the orbital tools implemented in the PATRIUS Library. The orbital tools of the PATRIUS library cover the software requirements given in [A1] §13,17,18,20.
Applicable and Reference Documents
Applicable Documents
[A1] CDCF - Fonctions de Base du Patrimoine de Dynamique du Vol, V1.2, SIRIUS-CF-DV-0049-CN, 2011.
[A2] Dossier de réutilisation Orekit et Commons Math, V1.0, SIRIUS-DLR-DV-0080-CN, 2010.
Reference Documents
[R1] Apache License, Version 2.0, January 2004, [1].
Glossary
EGM96 | Earth Gravitational Model 1996 |
EIGEN | European Improved Gravity model of the Earth by New techniques |
GRACE | Gravity Recovery And Climate Experiment |
GRGS | Groupe de Recherche de Géodésie Spatiale |
ICGEM | International Centre for Global Earth Models |
Overview
The following themes are discussed in this section:
- Physical models
- This chapter describes the force models available including but not limited to : central body attraction, third body attraction, atmospheric pressure, solar radiation pressure, new atmospheric models, terrestrial and ocean tides, other radiative pressure and interplanetary models. It also includes a description of the model describing the displacements of reference points due to the effect of the solid Earth tides.
- Propagation
- This chapter deals with the different propagators that are available to propagate the initial state of a spacecraft. Analytical propagators are implemented (Keplerian, Eckstein-Hechler, 2D, etc.) as well as numerical ones (that are better suited to perform more accurate propagations - it is the most important part of the Patrius library) and STELA semi-analytical propagator.
- Multi Propagation
- This chapter deals with the multi propagator that is available in PATRIUS to propagate several initial states. Numerical propagator is implemented.
- Ephemeris
- Integrated ephemeris, Ephemeris and Lagrange ephemeris.
- Measures and data filtering
- This chapter describes the basic concepts of localisation measures and orbit restitution, measure modelling and data filtering.
Pages dans la catégorie « User Manual 4.9 Orbit Propagation »
Cette catégorie contient 10 pages, dont les 10 ci-dessous.
U
- User Manual 4.9 Analytical propagation
- User Manual 4.9 Environment Models
- User Manual 4.9 Ephemeris
- User Manual 4.9 Force models
- User Manual 4.9 Measure and Filtering
- User Manual 4.9 Multi Propagation
- User Manual 4.9 Numerical propagation
- User Manual 4.9 Propagation
- User Manual 4.9 Semi-analytical propagation
- User Manual 4.9 Wrench models