Difference between revisions of "Project Daedalus"
| Line 7: | Line 7: | ||
= Pegasus = | = Pegasus = | ||
| − | [[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. |
| Line 13: | Line 13: | ||
= Prometheus = | = Prometheus = | ||
| − | [[Prometheus]] will use controllable canards to control the roll of the rocket on descent. | + | [[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. |
| Line 19: | Line 19: | ||
= Talos = | = Talos = | ||
| − | [[Talos]] will be a testbed for a new electronics suite, giving improved data acquisition, reliability, and communications to ground | + | [[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. |
| Line 29: | Line 29: | ||
= Charybdis = | = Charybdis = | ||
| − | [[Charybdis]] will use spin | + | [[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. |
Revision as of 06:39, 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, all while earning rocketry certifications. 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.