es 100 micro air vehicle project
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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. Introduction. - PowerPoint PPT PresentationTRANSCRIPT
ES 100 Micro Air Vehicle Project
Montgomery College Professor: Dr. Charles Kung
Summer I 2012
Team Members:Andrew
JoeLaura
MohammadNathelieNoella
StephanieThomas
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.
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
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)
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
Plan of Action DiagramConsider
Objectives
Minimize Cost expense
Consider Constraints
Maintain performance
Purchase trainer UAV
Assess the trainer and
brainstorm for final product
Navigation system
Propulsion System
Type of UAV Design
Preliminary Designs
Final Design was chosen
Final Product Assembly & Test Flight
Gantt Chart
Elect a Leader
Create Google Code Page
Purchase Materials
Trainer test flight
Brain Storm
Research Information
Preliminary Design Sketches
Preliminary Design Review
Detailed Design
Build, Test & Document
Preliminary Presentation
Report Submission
Final Presentation
05/29/2012 06/03/2012 06/08/2012 06/13/2012 06/18/2012 06/23/2012 06/28/2012 07/03/2012 07/08/2012
Start Date
DescriptionThings 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
Type of UAV Design
Fixed Wing Design
Navigational System
Remote Control
Propulsion System
Propeller Propulsion
Take-off Mechanism
Accelerated Take-off on the surface of Tennis Court
Tail DesignSimple Tail Design with a Rudder, Elevator, and
Horizontal/Vertical Stabilizer
Camera Mount Design
Our Designed Camera Mount
Mechanisms for Securing Components
Screws/Bolts and Double Sided Tape
Flight Trainer ChosenThe Night Vapor RTF
Basic Platform Chosen
The GWS Slowstick Airplane ARF
Motor, Servos, and Power System ChosenDynamic Power System Kit
Battery and Charger Chosen Sky Lipo Battery and Charger Kit (1000 mAh, 11.1 V, 20 C)
Design Sketches
Design Details
Camera MountBattery Mount
Horizontal Stabilizer
Vertical Stabilizer
FuselageElevator
Trailing Edge Wing Support
Leading Edge Wing Support
Motor MountMotor
RudderPropeller
Servo TrayTail Gear Support
Wing Wheel
Pro-Engineering Assembly
Things to Consider for Assembly
Center of Gravity Securing the
Components
Problems We Experienced
Lack of Flight Experience
Unfinished Aircraft Assembly
Unavailable Battery
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
Bill of Materials
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