Add to ORKGA cross-disciplinary team of scientists and engineers applied expertise gained in Lunar Lander development to the conceptual design of a long-duration, deep space habitat for Near Earth Asteroid (NEA) missions. The design reference mission involved two launches to assemble 5-modules for a 380-day round trip mission carrying 4 crew members. The conceptual design process yielded a number of interesting debates, some of which could be significant design drivers in a detailed Deep Space Habitat (DSH) design. These issues included: Design to minimize crew radiation exposure, launch loads, communications challenges, docking system and hatch commonality, pointing and visibility, consumables, and design for contingency operations
The design philosophy that will guide the design of early lunar habitats will be based on a compromi...
The human exploration of multiple deep space destinations (e.g. Cis-lunar, NEAs), in view of the fin...
Engineers designing life support systems for NASA s next Lunar Landers face unique challenges. As wi...
One possible next leap in human space exploration is a mission to a near Earth asteroid (NEA). In or...
The Advanced Concepts Office at the NASA Marshall Space Flight Center has been engaged for several y...
A Deep Space Habitat (DSH) is the crew habitation module designed for long duration missions. Althou...
Long duration human spaceflight missions beyond Low Earth Orbit will require much larger spacecraft ...
A Deep Space Habitat (DSH) is the crew habitation module designed for long duration missions. Althou...
The paper deals with the conceptual design of a habitable module conceived for long duration space e...
The paper describes a habitable module to be used for long duration space exploration missions. The ...
NASA's Capability-Driven Framework (CDF) describes an approach for progressively extending human exp...
Based on the flexible path strategy and the desire of the international community, the lunar surface...
An overview of recent NASA efforts for space habitation ranging from efforts with the ISS to potenti...
This presentation is focused on the future engineering challenges of human crewed spaceflight beyond...
Life support is vital to human spaceflight, and most current life support systems employ single-use ...
The design philosophy that will guide the design of early lunar habitats will be based on a compromi...
The human exploration of multiple deep space destinations (e.g. Cis-lunar, NEAs), in view of the fin...
Engineers designing life support systems for NASA s next Lunar Landers face unique challenges. As wi...
One possible next leap in human space exploration is a mission to a near Earth asteroid (NEA). In or...
The Advanced Concepts Office at the NASA Marshall Space Flight Center has been engaged for several y...
A Deep Space Habitat (DSH) is the crew habitation module designed for long duration missions. Althou...
Long duration human spaceflight missions beyond Low Earth Orbit will require much larger spacecraft ...
A Deep Space Habitat (DSH) is the crew habitation module designed for long duration missions. Althou...
The paper deals with the conceptual design of a habitable module conceived for long duration space e...
The paper describes a habitable module to be used for long duration space exploration missions. The ...
NASA's Capability-Driven Framework (CDF) describes an approach for progressively extending human exp...
Based on the flexible path strategy and the desire of the international community, the lunar surface...
An overview of recent NASA efforts for space habitation ranging from efforts with the ISS to potenti...
This presentation is focused on the future engineering challenges of human crewed spaceflight beyond...
Life support is vital to human spaceflight, and most current life support systems employ single-use ...
The design philosophy that will guide the design of early lunar habitats will be based on a compromi...
The human exploration of multiple deep space destinations (e.g. Cis-lunar, NEAs), in view of the fin...
Engineers designing life support systems for NASA s next Lunar Landers face unique challenges. As wi...