TU STORM 2007 High School Autonomous Robotics Competition Introduction

1. TU STORM 2007High School Autonomous Robotics CompetitionIntroduction

2. TU STORM 2007 Robotics Competition • Promote science and engineering • Students experienced • calibrating sensors, and programming robot controllers for autonomous control of robots. • CAD Design • Animation • High energy technological competition • Tests students' creativity

4. TU STORM Programming Competition • Smart Task Oriented Robotics Missions • Every team is issued a TU designed and built robot mechanically capable of completing each mission • These robots are controlled only by the autonomous programs written by the students

6. TU STORM Robot Description • Controller • Sensors • Human interface • Motion • Arms & Tools • Power requirements • Rigid frame: 2" x 4" aluminum tubing

7. Controller • IFI Mini Robot Controller. • Microchip 18F8520 PICmicro microcontroller • rated at 10 MIPS. • The digital input sampling frequency is 100KHz • Analog input access time is 10mSec. • 16 digital/analog I/O pins, • 8 PWM outputs (2mSec - 17mSec).

8. Controller • C/C++ with Microchip's MPLab compiler. • RS232 serial port for programming (115kb). • Memory space is 32K with • Variable space of 1800 bytes • 1024 bytes EE2.

10. Sensors • One digital infrared reflective sensor • Can detect banner tape up to 12 feet away • Two short range digital infrared sensor (B/W) • Can detect high contrast color at short distances. • Two infrared distance sensors • Two wheel encoders • One digital compass

12. Human interface TU STORM robots have other inputs for human interface. • There are three digital switches • used to set parameters for the autonomous program. • A potentiometer designed for calibrating the sensors and trimming the R/C servos.

14. Arms & Tools • Robot Arm • Pan and Tilt

16. Motion • Two dense foam wheels • Powered by modified heavy duty R/C servos. • The PWM outputs from the controller are used to drive the R/C servos. • A plastic ball skid as a third point of contact to the terrain. The robot can turn with a zero degree radius.

17. Power requirements • The main battery is a Ni-Cad 6 cell 7.2v RC battery that can be quickly charged in 15min. • The second battery is a 9v used for the infrared sensor.

19. TU STORM 2007 Dates • Competition Workshops and Kickoff Thursday October 22, 5:30 PM • Trial Competition Saturday November 3, 2:00 PM • Competition Day Saturday November 17, 12:30 PM • KEH Atrium, University of Tulsa 441 S. Gary, Tulsa, OK

20. TU STORM 2007 Staff • Dr. J. C. Diaz, Professor of Computer Science • Kyle Johnson, Computer Science, M.S. Student • Nick Malone, Computer Science, M.S. Student • Oly Mistry, Computer Science, M.S. Student • John Porter, Computer Science, M.S. Student • Ian Zedalis, Computer Science, M.S. Student

21. TU STORM 2007 Missions • The 2007 competition will showcase five different missions. • Three missions will involve programming the TU STORM robots. • One mission will involve completing the CAD design in Inventor of a robot for a FIRST type of competition. • Another mission will involve completing an animation in 3ds Max. • The specifics of each mission will be announced at the end of the kick-off

22. TU STORM 2007 Kick-off Workshops • Programming the Robot Controllers • using previous missions for review • programming details of new tools and sensors • CAD design using Inventor • use FIRST components to make a simple design • Animation workshop using 3ds Max