X-IPITER

1. X-IPITER 2005 AUVSI Undergraduate Student UAV Competition Mississippi State University November 19, 2004

2. Outline • Team Members • Objective • Mission Profile • Competition Restrictions • Design • Schedule • Budget • Contingency • Progress Update • Closing Remarks

3. Team Members Advisors Dr. Randolph Follett (ECE) Mr. Calvin Walker (ASE)

4. “Design and build an unmanned aerial vehicle (UAV) capable of performing realistic autonomous missions in an aviation environment.” Objective

5. Mission Profile • Autonomous or manual takeoff • Autonomously navigate through specified waypoints (if manual takeoff, demonstrate transition to autonomous flight) • Dynamic re-tasking of aircraft during flight • Provide imagery, total number of targets, GPS coordinates, and target orientation • Autonomous or manual landing within a specified area

6. Competition Restrictions • Ceiling: 500ft AGL • Floor: 50ft AGL • No-fly zones • Max Weight: 55lbs • Max Mission Time: 40min

7. Map of Competition Area

8. Overall Design

9. Airplane Systems

10. Flight Control

11. Surveillance

12. Onboard Power

13. Ground Station

14. Software

15. The Airplane • Material Comparison • Fabrication • Dimensions • Weight • Components • Performance • Longitudinal Stability and Control

16. Composites • Advantages • Strength • Durability • Ease of Fabrication • Disadvantages • Expensive • Can be heavy for small aircraft Material Comparison

17. Balsa • Advantages • Light Weight • Relatively Inexpensive • Disadvantages • Complex Structural Design • Length of Fabrication Time Material Comparison, Cont.

18. Method • Wet-layup • Hotwire Foam Materials • Materials • Fiberglass/epoxy • Carbon Tubes • Owens-Corning “Pink” Foam • Plywood Fabrication Technique

19. Wing • Airfoil Section: SD7062 • Chord: 16in • Span: 106in • Area: 1696in2 • Aspect Ratio: 6.5 • Fuselage • Length: 40in • Length (Tip to Tail): 80in • Width: 8.5in • Height: 8.5in Airplane Dimensions

20. Empennage • Horizontal • Airfoil: NACA 0009 • Span: 34in • Chord (Root): 11.3in • Chord (Tip): 5.6 • Area: 287.3 in2 • Aspect Ratio: 4.02 • Vertical • Airfoil: NACA 0009 • Height: 16in • Chord (Root): 15in • Chord (Tip): 7.5in • Area: 180 in2 Airplane Dimensions, Cont.

21. Gross Weight: 35.73 Empty Weight: 34.6 • Airframe: 25 • Systems: 9.6 Fuel Weight: 1.13 Airplane & Systems Weight(All Weights in pounds)

22. Engine • Fuji BT-64A Gasoline Engine • Fuel Tank • 24 oz • Propeller • 20in diameter X 10in pitch • Radio Control • Futaba 9-Channel Transmitter/Receiver Airplane Components

23. Recovery Parachute • Drag Chute Airplane Components, Cont.

24. Minimum Required Power: 0.37 hp • Velocity at PR,min: 28.9 mph • CDO: 0.047 • VSTALL: 27 mph • VCruise: 45 mph for PReq: 0.82 hp • Vmax: 97 mph Performance Analysis

25. Longitudinal Stability and Control • C.G at 24 inches from Nose (1/4 Chord of Wing) • Distance from Neutral Point to Nose is 27.2 inches • Static Margin is 19.8% • Cm-alpha = -0.963 radians-1

26. Schedule

27. Total Cost

28. Total Cost, Cont.

29. Competition Cost

30. Contingency Plan • Rugged Design • Chute System • Camera Transmission Failsafe Modes • COTS Parts for quick replacement

31. Progress Update • Airframe Design 90% Complete Partial Construction Underway • Systems Hardware and Power Systems Complete Software Programming and Testing Underway

32. Conclusion • Durable • Future Usability • Fulfils all Mission Specifications • Upgradeable

33. Questions? If it KWAX, it must be a XAWK http://www.ece.msstate.edu/department/organizations/auav/