Add to ORKGThe need for precision landing of high mass payloads on Mars and the return of sensitive samples from other planetary bodies to specific locations on Earth is driving the development of an innovative NASA technology referred to as the Deployable Entry Vehicle (DEV). A DEV has the potential to deliver an equivalent science payload with a stowed diameter 3 to 4 times smaller than a traditional rigid capsule configuration. However, the DEV design does not easily lend itself to traditional methods of directional control. The NASA Space Technology Mission Directorate (STMD)s Pterodactyl project is currently investigating the effectiveness of three different Guidance and Control (G&C) systems actuated flaps, Center of Gravity (CG) or mass moveme...
With the gradual increase in robotic rover sophistication and the desire for humans to explore the s...
The need to return high mass payloads is driving the development of a new class of vehicles, Deploya...
During its lifetime a space launcher is subjected to extreme heat loads. These can dramatically infl...
As space exploration missions continue to get more complex, greater demands for mass and volume are ...
Deployable Entry Vehicles (DEVs) enable in-situ scientific exploration at destinations with atmosphe...
This paper presents the trade study method used to evaluate and downselect from a set of guidance an...
The NASA-funded Pterodactyl project is a design, test, and build capability to (i) advance the curre...
The Pterodactyl project, seeks to advance the current state-of-the-art for entry vehicles by develop...
During all phases of a spacecraft's mission, a Thermal Protection System (TPS) is needed to protect ...
This paper presents a trade study method used to evaluate and down-select from a set of guidance and...
The National Aeronautics and Space Administration is planning to send humans to Mars. As part of the...
The major material and design challenges associated with the orbiter thermal protection system (TPS)...
Part of NASAs In-Space Propulsion Technology (ISPT) program is the development of the tradespace to ...
The National Aeronautics and Space Administration (NASA) is preparing to send humans beyond Low Eart...
A flexible thermal protection system (FTPS) is needed to enable the use of deployable and inflatable...
With the gradual increase in robotic rover sophistication and the desire for humans to explore the s...
The need to return high mass payloads is driving the development of a new class of vehicles, Deploya...
During its lifetime a space launcher is subjected to extreme heat loads. These can dramatically infl...
As space exploration missions continue to get more complex, greater demands for mass and volume are ...
Deployable Entry Vehicles (DEVs) enable in-situ scientific exploration at destinations with atmosphe...
This paper presents the trade study method used to evaluate and downselect from a set of guidance an...
The NASA-funded Pterodactyl project is a design, test, and build capability to (i) advance the curre...
The Pterodactyl project, seeks to advance the current state-of-the-art for entry vehicles by develop...
During all phases of a spacecraft's mission, a Thermal Protection System (TPS) is needed to protect ...
This paper presents a trade study method used to evaluate and down-select from a set of guidance and...
The National Aeronautics and Space Administration is planning to send humans to Mars. As part of the...
The major material and design challenges associated with the orbiter thermal protection system (TPS)...
Part of NASAs In-Space Propulsion Technology (ISPT) program is the development of the tradespace to ...
The National Aeronautics and Space Administration (NASA) is preparing to send humans beyond Low Eart...
A flexible thermal protection system (FTPS) is needed to enable the use of deployable and inflatable...
With the gradual increase in robotic rover sophistication and the desire for humans to explore the s...
The need to return high mass payloads is driving the development of a new class of vehicles, Deploya...
During its lifetime a space launcher is subjected to extreme heat loads. These can dramatically infl...