2013 international space apps challenge - hitch a ride to mars - oklahoma to mars
TRANSCRIPT
- 1. Aslan MalekiDavid SheelyDanny Chakron Sam ShadidJohn Nguyen Zack Shadid April 20-21, 2013OklahomatoMars Norman, OklahomaChallenge: Hitch a Ride to Mars
- 2. Contents1Define the Challenge2Brainstorm3Identify Criteria & Specify Constraints4Explore of Possibilities5Develop a Design Proposal6Model7Evaluate and Refine the Design8Final Solution2
- 3. Challenge: Hitch a Ride to MarsDesign a Cube for an upcoming Mars MissionCreate a CubeSat design and develop a mission that operates in theMars environment and furthers our knowledge of Mars. The specificdeliverable can take many forms: a simple mission conceptdocument, software for CubeSat hardware and sensors, a detailedCubeSat design, a full mission plan, prototype CubeSat hardware. 3
- 4. What is a Cube Satellite (CubeSat)CubeSats Size: 10 centimeter cube Weight: 1 kilogram Cost: $50,000.00 4
- 5. BrainstormCubeSat3 Unitvs. Measuring 1 Unit Topography PhysicalBrainstorming AspectsSessionTemperatureMeasurementRadioisotopeThermal Generator 5
- 6. Identify Criteria and Specify ConstraintsMass: 1330gRemove Before Flight: 6.5 mmWidth (All Side): 100.0 0.1mmHeight: 113.5 0.1mm6
- 7. Explore Possibilities 1UPanelsAntenna CPUSensors 7
- 8. Select an Approach 8
- 9. Design Proposal Separation Springs & Deployment Switches Translucent panel Solar Panels Battery Crossed - Dipole Antenna 4 strips Communication transceiver Sensors Sun Sensor Face Space Mars Sensor Measure Radiation intensity Horizon Sensor Maintain attitude to Mars Onboard CPU Includes Attitude Control System Communication system 9
- 10. Model10
- 11. Evaluate and Refine 11
- 12. Final Solution 12
- 13. Oklahoma to Mars TeamAslan Maleki David SheelyDanny ChakronSam ShadidJohn NguyenZack Shadid14