Gryphon: A Flexible Lunar Lander Design to Support a Semi-Permanent Lunar Outpost | Zendy

Dale C. Arney | Zendy; Joseph Hickman | Zendy; Philip Tanner | Zendy; J.J. Wagner | Zendy; Marc Wilson | Zendy; Alan Wilhite | Zendy

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Gryphon: A Flexible Lunar Lander Design to Support a Semi-Permanent Lunar Outpost

Author(s) -

Dale C. Arney,

Joseph Hickman,

Philip Tanner,

J.J. Wagner,

Marc Wilson,

Alan Wilhite

Publication year - 2007

Publication title -

smartech repository (georgia institute of technology)

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2007-6169

Subject(s) - moon landing , astrobiology , lunar orbit , aerospace engineering , geology , computer science , engineering , spacecraft , physics , apollo , zoology , biology

A lunar lander is designed to provide safe, reliable, and continuous access to the lunar surface by the year 2020. The NASA Exploration System Architecture is used to initially define the concept of operations, architecture elements, and overall system requirements. The design evaluates revolutionary concepts and technologies to improve the performance and safety of the lunar lander while minimizing the associated cost using advanced systems engineering capabilities and multi-attribute decision making techniques. The final design is a flexible (crew and/or cargo) lander with a side-mounted minimum ascent stage and a separate stage to perform lunar orbit insertion.

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