Supportability Challenges, Metrics, and Key Decisions for Future Human Spaceflight
Supportability Challenges, Metrics, and Key Decisions for Future Human Spaceflight
- Neue Suche nach: Owens, Andrew C.
- Neue Suche nach: de Weck, Olivier L.
- Neue Suche nach: Stromgren, Chel
- Neue Suche nach: Cirillo, William
- Neue Suche nach: Goodliff, Kandyce
- Neue Suche nach: Owens, Andrew C.
- Neue Suche nach: de Weck, Olivier L.
- Neue Suche nach: Stromgren, Chel
- Neue Suche nach: Cirillo, William
- Neue Suche nach: Goodliff, Kandyce
Future crewed missions beyond Low Earth Orbit (LEO) represent a logistical challenge that is unprecedented in human space flight. Astronauts will travel farther and stay in space for longer than any previous mission, far from timely abort or resupply from Earth. Under these conditions, supportability { defined as the set of system characteristics that influence the logistics and support required to enable safe and effective operations of systems { will be a much more significant driver of space system lifecycle properties than it has been in the past. This paper presents an overview of supportability for future human space flight. The particular challenges of future missions are discussed, with the differences between past, present, and future missions highlighted. The relationship between supportability metrics and mission cost, performance, schedule, and risk is also discussed. A set of pro- posed strategies for managing supportability is presented (including reliability growth, uncertainty reduction, level of repair, commonality, redundancy, In-Space Manufacturing (ISM) (including the use of material recycling and In-Situ Resource Utilization (ISRU) for spares and maintenance items), reduced complexity, and spares inventory decisions such as the use of predeployed or cached spares - along with a discussion of the potential impacts of each of those strategies. References are provided to various sources that describe these supportability metrics and strategies, as well as associated modeling and optimization techniques, in greater detail. Overall, supportability is an emergent system characteristic and a holistic challenge for future system development. System designers and mission planners must carefully consider and balance the supportability metrics and decisions described in this paper in order to enable safe and effective beyond-LEO human space flight.
Dokumentinformationen
Supportability Challenges, Metrics, and Key Decisions for Future Human Spaceflight
AIAA SPACE 2017 ; 2017 ; Orlando, FL, United States
2017-09-12
Aufsatz (Konferenz)
Keine Angabe
Englisch
Ähnliche Titel
Supportability Challenges, Metrics, and Key Decisions for Future Human Spaceflight (AIAA 2017-5124)
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