UK Aerial Robotics Team UK IDEA Laboratory Workforce Development: The UK Aerial Robotics Team and...
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UK Aerial Robotics Team
UK IDEA Laboratory
Workforce Development: The UK Aerial Robotics Team and the PAX River Student UAV Competition
Dale McClure
(Matt Smith)
University of Kentucky
UK Aerial Robotics Team
UK IDEA Laboratory
Workforce Development Projects
• Project Characteristic– Interesting, Exciting, Challenging, Culmination– Accessible Technology
• Organization– Like a small aerospace company– Systems Approach– Students responsible for all aspects of program– Tied to courses
• Research– Develop technologies– Offers depth/potential for advance degree work
• Interaction with engineers and NASA– Expose students to the “real world”– Feedback from practicing engineers
UK Aerial Robotics Team
UK IDEA Laboratory
• Annual Association of Unmanned Vehicle Systems International (AUVSI) Student UAV Competition.
• Hosted by the U.S. Navy Program Executive Office for Strike Weapons and Unmanned Aviation
• International competition held in July (24 teams in 2006)
PAX River Competition
UK Aerial Robotics Team
UK IDEA Laboratory
The Competition
• Takeoff, fly specified GPS waypoints, acquire images, identify and geo-reference ground targets, and land within time limit
• Altitude airspace limitations
• Dynamic mission requirements
• Submit the GPS location and orientation of each target
UK Aerial Robotics Team
UK IDEA Laboratory
Develop a UAS
• Airframe and Propulsion • Embedded Computing• Autonomous Flight Control• Communication Links• Image Capture and Analysis• Ground Station
Unmanned Aircraft “System”
UK Aerial Robotics Team
UK IDEA Laboratory
Photo Stitching System
• NASA World Wind– Open source software
– GUI to display end images with all required image data
• Functionality in a “plug-in”
• Images can coexist with NASA World Wind data
UK Aerial Robotics Team
UK IDEA Laboratory
Competition Details• Teams are required to takeoff
(manual or autonomous), fly specified waypoints, locate and identify targets on the ground, and return for landing within the allotted time.
• Mission criteria includes dynamic air vehicle control during autonomous flight, GPS waypoint navigation, target reconnaissance, ability to adjust to changing mission requirements.
UK Aerial Robotics Team
UK IDEA Laboratory
Sig Kadet Senior ARF
• Wingspan: 80.5 in.• Length: 64.75 in.• Weight: 6.5 lbs unloaded• Engine: 1.6 bhp Tower Hobbies .61
UK Aerial Robotics Team
UK IDEA Laboratory
Technologies
Key Features of Piccolo System
• Avionics - Small size: 4.8” x 2.4” x 1.5”, 233g.
• Highly integrated –Includes sensors, GPS, enclosure, and communications link.
• Real-Time Data Logging.
• Manual piloting over the integrated UHF ground station link.
• End-user programmability, including RS-232 serial communications.
• Flexible drag and drop flight plan generation and updates.
Piccolo System Block Diagram
Piccolo Avionics
UK Aerial Robotics Team
UK IDEA Laboratory
Tiny Interface Module
• JTAG• custom harness• UART0• Custom harness with level shifter• UART1• Custom harness with level shifter• SPI• 4-wire compatible• Servo header ( X4)• Standard Servo plug-in• GPIO (X4)• CAN (X2)• Four pin header• LED (X3)• Power• Status 0• Status 1• Push Button (X2)• Reset• Generic Push Button
UK Aerial Robotics Team
UK IDEA Laboratory
Camera System
• Aiptek IS-DV digital camcorder
– Fixed lens camera
– NTSC video out
– 3MPixels
– Built-in SD Card Slot (Max. 1 GB)
• TXA5-Rcb 1W-70 cm transmitter @ 426.25MHz
• Dual-Axis Stabilizing System