Small Satellite LEO Maneuvers with Low-Power Electric Propulsion
Author:
Publisher
American Institute of Aeronautics and Astronautics
Reference15 articles.
1. 2Wilson, F. C. "Recent Advances in Satellite Propulsion and Associated Mission Benefits," 24thAIAA International Communications SatelliteSystems Conference (ICSSC).11-14 June 2006.
2. 5Randolph, T. M., Oh, D. Y. "Economic Benefit Analysis of Chemical-Electric Orbit Raising Missions," 20thAIAA International CommunicationSatellite Systems Conference andExhibit. 12-15May, 2002.
3. Evaluation of Solar Electric Propulsion Technologies for Discovery-Class Missions
4. End-to-End Optimization of Chemical-Electric Orbit-Raising Missions
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