Difference between revisions of "Project Daedalus"
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:[[Talos]] will be a testbed for a new electronics suite, giving improved data acquisition, reliability, and communications to ground. The newly designed and tested electronics will then become standard on all other large rockets. | :[[Talos]] will be a testbed for a new electronics suite, giving improved data acquisition, reliability, and communications to ground. The newly designed and tested electronics will then become standard on all other large rockets. | ||
;Charybdis | ;Charybdis | ||
| − | :[[Charybdis]] will use canted fins to spin stabilize the rocket on ascent, and then employ a yo-yo de-spin to halt the rotation and allow the parachutes to deploy. | + | :[[Charybdis]] will use canted fins to [[spin stabilization|spin stabilize]] the rocket on ascent, and then employ a yo-yo de-spin to halt the rotation and allow the parachutes to deploy. |
[[Category:Rockets]] | [[Category:Rockets]] | ||
Revision as of 06:57, 18 January 2016
Project Daedalus is SSI's experimental rocketry program, focused on developing exciting yet approachable technologies for Class 2 rockets. Currently, the project is composed of four teams, each of which are designing, building, and testing novel concepts. Each team will present at a Preliminary and a Critical Design Review, as well as test prototypes on rockets of increasing size and complexity. The four teams, and their projects, are as follows:
- Pegasus
- The purpose of the Pegasus rocket is to demonstrate the feasibility of using a parafoil recovery system to create a controlled, directed recovery for a high-powered rocket from over 10,000 ft.
- Prometheus
- Prometheus will use controllable canards to control the roll of the rocket on descent, allowing for both stabilized video footage and for extension into more demanding controls applications.
- Talos
- Talos will be a testbed for a new electronics suite, giving improved data acquisition, reliability, and communications to ground. The newly designed and tested electronics will then become standard on all other large rockets.
- Charybdis
- Charybdis will use canted fins to spin stabilize the rocket on ascent, and then employ a yo-yo de-spin to halt the rotation and allow the parachutes to deploy.