ES 100 Micro Air Vehicle Project

1. ES 100 Micro Air Vehicle Project Montgomery College Professor: Dr. Charles Kung Summer I 2012 Team Members: Andrew Joe Laura Mohammad Nathelie Noella Stephanie Thomas

2. Introduction Our goal is to design a Unmanned Aerial Vehicle (UAV) that can successfully complete the field test equipped with a surveillance mechanism that it can use to capture footage and video.

3. Objectives The UAV must pass a field test and the requirements include: • UAV must be able to take off and land from tennis court • Flight test should be at least 2 minutes long • UAV must capture video footage from flight to landing

4. Constraints The UAV must: • Have an operator that uses great caution to ensure the safety/security of any onlookers • Safe/operable design • Weigh a maximum of 450 grams • Operate by battery power (Lipo 1000 mAh, 11.1V , 20C Battery ) • Use a suitable RC frequency (2.4 Ghz)

5. Plan of Action Steps to completing the project: • Elect a group leader and assign roles • Brainstorm designs that meet with the objectives and constraints • Cost comparison and analysis • Trainer flying practice • Preliminary design process • Design comparison and analysis • Assembly of aircraft • Practice flying the aircraft • Final flight test and evaluation

6. Plan of Action Diagram

7. Gantt Chart

8. Description Things we want to accomplish: • Build a UAV with a camera mount attachment • Minimize cost expenses • Maintain performance and reliability • Maximize and determine the most suitable components

9. Type of UAV Design Fixed Wing Design

10. Navigational System Remote Control

11. Propulsion System Propeller Propulsion

12. Take-off Mechanism Accelerated Take-off on the surface of Tennis Court

13. Tail Design Simple Tail Design with a Rudder, Elevator, and Horizontal/Vertical Stabilizer

14. Camera Mount Design Our Designed Camera Mount

15. Mechanisms for Securing Components Screws/Bolts and Double Sided Tape

16. Flight Trainer Chosen The Night Vapor RTF

17. Basic Platform Chosen The GWS Slowstick Airplane ARF

18. Motor, Servos, and Power System Chosen Dynamic Power System Kit

19. Battery and Charger Chosen Sky Lipo Battery and Charger Kit (1000 mAh, 11.1 V, 20 C)

20. Design Sketches

21. Design Details Battery Mount Camera Mount

22. Vertical Stabilizer Horizontal Stabilizer

23. Elevator Fuselage

24. Leading Edge Wing Support Trailing Edge Wing Support

25. Motor Motor Mount

26. Propeller Rudder

27. Tail Gear Support Servo Tray

28. Wheel Wing

29. Pro-Engineering Assembly

30. Things to Consider for Assembly • Center of Gravity • Securing the Components

31. Problems We Experienced • Lack of Flight Experience • Unfinished Aircraft Assembly • Unavailable Battery

32. List of Materials • 1 Slow Stick Airplane ARF: No Power Supply • 1 3 pc Dynamics Brushless Motor +18A with 9g Servos • 1 Sky Lipo 1000 mAh, 11.1V , 20C Battery

33. Bill of Materials

34. References • Aviation Knowledge - http://aviationknowledge.wikidot.com/aviation:parts-airplane • Google Images - http://www.google.com/images • Google maps - http://www.maps.google.com/ • Sample Project Report - http://www.montgomerycollege.edu/sample_mav_report.pdf • RCSgroups - http://www.rcgroups.com/forums/showthread.php?t=917604 • Frequency Picture - http://rrsg.ee.uct.ac.za/members/jwamicha/usrp2_fft-SignalGenerator-Off.png