Add to ORKGCargo Transport System and the Lunar Exploration Surface Infrastructure and discusses some of the critical challenges faced, alternatives considered, and Orbital’s solution for these challenges. In addition to presenting a Lunar Surface Exploration architecture that fits within program constraints and highlighting the architecture defining trade studies, e.g. habitat geometry, habitat radiation shielding, lunar surface power, and cargo delivery system, a launch manifest and strategy for lunar base expansion are also discussed
The International Space Exploration Coordination Group (ISECG) was established in response to The Gl...
Space exploration has recently witnessed a surge of renewed interest, in particular, the concept of ...
There are compelling advantages of a human presence on the surface of the Moon, as evidenced partly ...
To enable return of human missions to the surface of the Moon sustainably, a new study was initiated...
To enable return of human missions to the surface of the Moon sustainably, a new study was initiated...
This paper will discuss the conceptual design of a transportation system for supporting a permanent ...
It has been 50 years since astronauts last walked on the lunar surface during the Apollo programme. ...
A renewed interest in lunar exploration with the focus on establishing a constant human presence on ...
Lunar transportation architectures exist for several different mission scenarios. Direct flights fro...
Based on the flexible path strategy and the desire of the international community, the lunar surface...
As defined by the Exploration Systems Architecture Study (ESAS), the lunar architecture is a combina...
The Planet Surface Systems Office at the NASA Johnson Space Center has participated in an analysis o...
sponsorship acknowledged. NASA’s Vision for Space Exploration is to establish a permanent human pres...
To support and enable future human missions to the surface of the Moon, a new plan was formulated to...
NASA's strategic planning for technology investment draws on engineering studies of potential future...
The International Space Exploration Coordination Group (ISECG) was established in response to The Gl...
Space exploration has recently witnessed a surge of renewed interest, in particular, the concept of ...
There are compelling advantages of a human presence on the surface of the Moon, as evidenced partly ...
To enable return of human missions to the surface of the Moon sustainably, a new study was initiated...
To enable return of human missions to the surface of the Moon sustainably, a new study was initiated...
This paper will discuss the conceptual design of a transportation system for supporting a permanent ...
It has been 50 years since astronauts last walked on the lunar surface during the Apollo programme. ...
A renewed interest in lunar exploration with the focus on establishing a constant human presence on ...
Lunar transportation architectures exist for several different mission scenarios. Direct flights fro...
Based on the flexible path strategy and the desire of the international community, the lunar surface...
As defined by the Exploration Systems Architecture Study (ESAS), the lunar architecture is a combina...
The Planet Surface Systems Office at the NASA Johnson Space Center has participated in an analysis o...
sponsorship acknowledged. NASA’s Vision for Space Exploration is to establish a permanent human pres...
To support and enable future human missions to the surface of the Moon, a new plan was formulated to...
NASA's strategic planning for technology investment draws on engineering studies of potential future...
The International Space Exploration Coordination Group (ISECG) was established in response to The Gl...
Space exploration has recently witnessed a surge of renewed interest, in particular, the concept of ...
There are compelling advantages of a human presence on the surface of the Moon, as evidenced partly ...