Add to ORKGThis paper explores trajectory options for the human exploration of Mars, with an emphasis on conjunction-class missions. Conjunction-class missions are characterized by short in-space durations with long surface stays, as opposed to the long in-space durations and short surface stays characteristic of opposition-class missions. Earth-Mars and Mars-Earth trajectories are presented across a series of mission opportunities and transfer times in order to explore the space of possible crew and cargo transfer trajectories. In the specific instance of crew transfer from Earth to Mars, the potential for aborting the mission without capture into Mars orbit is also of interest. As such two additional classes of trajectories are considered: free-retu...
NASA continues to advance plans to extend human presence beyond low-Earth orbit leading to human exp...
Mars nonstop round-trip trajectories using gravity supplemented by propulsion or aerodynamic force
Traveling to Mars with a human crew poses challenges exceeding those facing the Apollo astronauts in...
AIAA Astrodynamics Specialist Conference August 2006, Keystone, CO.This paper explores trajectory o...
A variety of mission scenarios are compared in this thesis to assess the strengths and weaknesses of...
The study examines how the mission design variables departure energy, entry speed, and trip time var...
Trajectory and mission requirement data are presented for Earth Mars opposition and conjunction clas...
A subset of Earth-originating Mars double-flyby ballistic trajectories is documented. The subset con...
Mars Mission profile options and mission requirements data are presented for Earth-Mars opposition a...
This paper presents a comparative analysis of launch and Earth departure strategies for human Mars m...
This thesis research examines the fuel optimal trajectories for a spacecraft going to Mars and retur...
Mars flyby trajectories and Earth return trajectories have the potential to enable lower- cost and s...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Minimum-mass tether designs are developed for a spinning human transport that not only provides arti...
A concept is presented for a flyby mission of the planet. The mission was sized for the 2001 time pe...
NASA continues to advance plans to extend human presence beyond low-Earth orbit leading to human exp...
Mars nonstop round-trip trajectories using gravity supplemented by propulsion or aerodynamic force
Traveling to Mars with a human crew poses challenges exceeding those facing the Apollo astronauts in...
AIAA Astrodynamics Specialist Conference August 2006, Keystone, CO.This paper explores trajectory o...
A variety of mission scenarios are compared in this thesis to assess the strengths and weaknesses of...
The study examines how the mission design variables departure energy, entry speed, and trip time var...
Trajectory and mission requirement data are presented for Earth Mars opposition and conjunction clas...
A subset of Earth-originating Mars double-flyby ballistic trajectories is documented. The subset con...
Mars Mission profile options and mission requirements data are presented for Earth-Mars opposition a...
This paper presents a comparative analysis of launch and Earth departure strategies for human Mars m...
This thesis research examines the fuel optimal trajectories for a spacecraft going to Mars and retur...
Mars flyby trajectories and Earth return trajectories have the potential to enable lower- cost and s...
Due to the character of the original source materials and the nature of batch digitization, quality ...
Minimum-mass tether designs are developed for a spinning human transport that not only provides arti...
A concept is presented for a flyby mission of the planet. The mission was sized for the 2001 time pe...
NASA continues to advance plans to extend human presence beyond low-Earth orbit leading to human exp...
Mars nonstop round-trip trajectories using gravity supplemented by propulsion or aerodynamic force
Traveling to Mars with a human crew poses challenges exceeding those facing the Apollo astronauts in...