| タイトル | Multigenerational Independent Colony for Extraterrestrial Habitation, Autonomy, and Behavior Health (MICEHAB): An Investigation of a Long Duration, Partial Gravity, Autonomous Rodent Colony |
| 本文(外部サイト) | http://hdl.handle.net/2060/20160006579 |
| 著者(英) | Simon, Matthew A.; Jones, Christopher A.; Stillwagen, Frederic H.; Rodgers, Erica M.; Wilson, Logan; Williams, Phillip A.; Guendel, Alex; Lewis, Weston; Bednara, Michael; Lim, Jeremy; Neilan, James H.; Antol, Jeffrey; Chai, Patrick R.; Klovstad, Jordan J.; Wusk, Grace; Hernandez, Joel |
| 著者所属(英) | NASA Langley Research Center |
| 発行日 | 2015-08-31 |
| 言語 | eng |
| 内容記述 | The path from Earth to Mars requires exploration missions to be increasingly Earth-independent as the foundation is laid for a sustained human presence in the following decades. NASA pioneering of Mars will expand the boundaries of human exploration, as a sustainable presence on the surface requires humans to successfully reproduce in a partial gravity environment independent from Earth intervention. Before significant investment is made in capabilities leading to such pioneering efforts, the challenges of multigenerational mammalian reproduction in a partial gravity environment need be investigated. The Multi-generational Independent Colony for Extraterrestrial Habitation, Autonomy, and Behavior health is designed to study these challenges. The proposed concept is a conceptual, long duration, autonomous habitat designed to house rodents in a partial gravity environment with the goal of understanding the effects of partial gravity on mammalian reproduction over multiple generations and how to effectively design such a facility to operate autonomously while keeping the rodents healthy in order to achieve multiple generations. All systems are designed to feed forward directly to full-scale human missions to Mars. This paper presents the baseline design concept formulated after considering challenges in the mission and vehicle architectures such as: vehicle automation, automated crew health management/medical care, unique automated waste disposal and hygiene, handling of deceased crew members, reliable long-duration crew support systems, and radiation protection. This concept was selected from an architectural trade space considering the balance between mission science return and robotic and autonomy capabilities. The baseline design is described in detail including: transportation and facility operation constraints, artificial gravity system design, habitat design, and a full-scale mock-up demonstration of autonomous rodent care facilities. The proposed concept has the potential to integrate into existing mission architectures in order to achieve exploration objectives, and to demonstrate and mature common capabilities that enable a range of destinations and missions. |
| NASA分類 | Man/System Technology and Life Support; Aerospace Medicine |
| レポートNO | NF1676L-22140 |
| 権利 | Copyright, Distribution as joint owner in the copyright |
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