Applications of Multi-Body Dynamical Environments: The ARTEMIS Transfer Trajectory Design

Applications of Multi-Body Dynamical Environments: The ARTEMIS Transfer Trajectory Design

The application of forces in multi-body dynamical environments to pennit the transfer of spacecraft from Earth orbit to Sun-Earth weak stability regions and then return to the Earth-Moon libration (L1 and L2) orbits has been successfully accomplished for the first time. This demonstrated transfer is...

Ausführliche Beschreibung

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Bibliographische Detailangaben
Hauptverfasser: Folta, David C., Woodard, Mark, Howell, Kathleen, Patterson, Chris, Schlei, Wayne
Format: Tagungsbericht
Sprache:eng
Schlagworte:
Astrodynamics
Astronautics (General)
Spacecraft Design, Testing And Performance
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Beschreibung
Zusammenfassung:The application of forces in multi-body dynamical environments to pennit the transfer of spacecraft from Earth orbit to Sun-Earth weak stability regions and then return to the Earth-Moon libration (L1 and L2) orbits has been successfully accomplished for the first time. This demonstrated transfer is a positive step in the realization of a design process that can be used to transfer spacecraft with minimal Delta-V expenditures. Initialized using gravity assists to overcome fuel constraints; the ARTEMIS trajectory design has successfully placed two spacecraft into EarthMoon libration orbits by means of these applications.