Add to ORKGSizing data is presented for various combinations of Mars missions and chemical-propulsion/aerobraking vehicles. Data is compared for vehicles utilizing opposition (2-year mission) and conjunction (3-year mission) trajectories for 1999 and 2001 opportunities, for various sizes of vehicles. Payload capabilities for manned and unmanned missions vehicles and for propulsive-braking and aerobraking cases are shown. The effect of scaling up a reference vehicle is compared to the case of utilizing two identical vehicles, for growth in payload capability. The rate of cumulative build up of weight on the surface of Mars is examined for various mission/vehicle combinations, and is compared to the landed-weight requirements for sortie missions, moving...
Aerobraking is one of the largest contributors to making both lunar and Mars missions affordable. Th...
A variety of mission scenarios are compared in this thesis to assess the strengths and weaknesses of...
Human exploration missions to Mars or other destinations in the solar system require large quantitie...
Representative interplanetary space vehicle systems are sized to compare and show sensitivity of the...
Earth-to-Mars distances vary from 60 to 400 million kilometers over a 14-year cycle. This complicate...
A number of manned Mars mission types, propulsion systems, and operational techniques are compared. ...
A concept is presented for a flyby mission of the planet. The mission was sized for the 2001 time pe...
Vehicle design requirements of a reusable system for manned Mars missions which employ aerocapturing...
The transportation mass requirements developed for each mission and transportation mode were based o...
Human Mars mission architecture studies have shown that the ascent vehicle mass drives performance r...
The proposed manned Mars mission will need to be as weight efficient as possible. A way of lowering ...
For a Mars Expedition, aerobrakes can play a vital role in several major mission events, including a...
Conventional interplanetary spacecraft use propulsive systems to decelerate into orbit. Aerocapture ...
AIAA Space 2006 Conference September 2006, San Jose, CA.The human exploration of Mars presents many...
Viewgraphs on propulsion needs for lunar/Mars missions are presented. Topics covered include: lunar ...
Aerobraking is one of the largest contributors to making both lunar and Mars missions affordable. Th...
A variety of mission scenarios are compared in this thesis to assess the strengths and weaknesses of...
Human exploration missions to Mars or other destinations in the solar system require large quantitie...
Representative interplanetary space vehicle systems are sized to compare and show sensitivity of the...
Earth-to-Mars distances vary from 60 to 400 million kilometers over a 14-year cycle. This complicate...
A number of manned Mars mission types, propulsion systems, and operational techniques are compared. ...
A concept is presented for a flyby mission of the planet. The mission was sized for the 2001 time pe...
Vehicle design requirements of a reusable system for manned Mars missions which employ aerocapturing...
The transportation mass requirements developed for each mission and transportation mode were based o...
Human Mars mission architecture studies have shown that the ascent vehicle mass drives performance r...
The proposed manned Mars mission will need to be as weight efficient as possible. A way of lowering ...
For a Mars Expedition, aerobrakes can play a vital role in several major mission events, including a...
Conventional interplanetary spacecraft use propulsive systems to decelerate into orbit. Aerocapture ...
AIAA Space 2006 Conference September 2006, San Jose, CA.The human exploration of Mars presents many...
Viewgraphs on propulsion needs for lunar/Mars missions are presented. Topics covered include: lunar ...
Aerobraking is one of the largest contributors to making both lunar and Mars missions affordable. Th...
A variety of mission scenarios are compared in this thesis to assess the strengths and weaknesses of...
Human exploration missions to Mars or other destinations in the solar system require large quantitie...