April 27, 2006 Using Vex to Supercharge your FRC team

1. April 27, 2006Using Vex toSupercharge your FRC team

2. Speakers • Dan Larochelle Engineering Manager - intelitek FRC team #40 and FVC team #9 14 years FRC experience • Donn Griffith Engineering Outreach Director - USC FRC team #343 9 Years FRC experience

3. Overview • Introductions • What is Vex? • Who is intelitek • FVC program • Software Overview • Curriculum available for Vex • Mini FRC video • Questions

4. Who is intelitek? • Intelitek is a world-leading developer, producer and supplier of industrial CNC machines and technology training solutions. • Our educational solutions are the ideal choice for Pre-Engineering programs, Automation Programs and Middle School and High School Technology Programs. • Our educational and industrial product line covers subjects such as CAD, CAM, CNC, robotics, machine vision, FMS, CIM, hydraulics, pneumatics, PLC, sensors, process control and data acquisition. We also offer e-learning solutions designed to prepare students for careers in technologically advanced business environments. • For over 20 years we have provided comprehensive solutions for training in engineering, mechatronics, automated manufacturing and industrial technologies.

5. Who is intelitek? (continued) • More than 10,500 CNC and 12,500 robots installed worldwide • PLTW • Skills USA • More than 1,100 CNC machines to industrial accounts • World leader in industrial Benchtop VMC’s • 250 CIM installations worldwide • More than 500 Labs worldwide • Over $250 Millioninstalled in North America

6. What is Vex? • Vex is a robotics design system that allows students to bring their ideas to life. • The Vex Starter kit has over 500 parts including a configurable chassis, programmable microcontroller, gears, wheels, hardware and much more. • In simple terms - it is like an erector set with a brain.

7. Why did intelitek choose Vex? • Intelitek was developing a world class robotics curriculum (REC) and needed a platform to base the content on. • After a year long search and lots of testing of various robotic platforms, Vex proved to be the most compete solution at a price point appealing to the educational market.

8. FIRST Vex Challenge (FVC)

9. Educating the FRC team members • Robotic Engineering Curriculum (REC) • Assumes no prior knowledge of robotics • Robotic concepts are introduced and reinforced with activities and projects. • Material is web based and interactive making it appealing to students. • Content is presented in an effective blend of text and visual materials. • easyC integrated in to curriculum

10. The REC LearnMate Learning Loop

11. What is easyC?

12. The Big Test Goals • Enhance current brainstorming techniques with the Vex platform. • Rapid prototype 6 mini robots for to prove out the validity of our ideas from our initial brainstorming session. • 3 shooters and 3 ball dumpers • Limit the build to 2-3 days. • Compete the various designs against each other and see what happens. • Test the robustness of the Vex platform and identify possible limitations.

13. Mini FRC Video • This video can be downloaded from the intelitek website at www.intelitekdownloads.com/MiniFRC

14. What did we learn about the game? • Winning autonomous was a big advantage, it put the losing team in catch up mode. • Good shooting robots are hard to beat. • Shooters missed a lot more than they got in. • Ramp points weighed heavy in low scoring matches. • The field was littered with balls after the first few periods, picking up balls from the floor was key. • A good defensive robot can nullify a good offensive robot, especially while a shooter is shooting! • Mobility was important, the field was crowded and there were lots of places the robot could be pinned

15. How did it affect our FRC robot? • Focused our design on being effective in autonomous • A rapid fire shooter • Mobility traded off for strength – Mechanum wheels • Use the camera to aim shooter to avoid wasting balls • Dual conveyors to harvest balls from both sides • Educated decisions were made early in the design process. Reduced guessing!

16. How did it affect our team? • First project in 14 years that involved every single member of an FRC team. • Leveled the playing field enabling younger students to learn and share their ideas with their more experienced teammates. • Higher level of thinking about the game. Game strategies could be played out in real time. • Students were challenged to show their ideas • It made believers out of the skeptics that felt that MiniFRC project was a waste of time. • Team bonded together and had a lot of fun.

17. What did the students learn? • Working in smaller groups allowed more ideas to be developed and tested. • Students not intimidated by the hardware, permitting greater experimentation and innovation. • Student experimented with autonomous programs using easyC • The competitive element of the competition drove them to keep making their robots better. • The engineering design process was dramatically reinforced through competition, especially the concept of design iterations • Shooting balls is FUN!

18. What did the mentors learn? • Mentors became facilitators, empowering the students. • The students had to understand the Aim High Rules. This led to a better informed team. • Leveled the playing field between the boys and the girls. • Robustness of the Vex platform allowed for a direct correlation of concepts and ideas to our FRC robot. • Team spent time testing ideas and strategies in week 1 and 2 rather than week 6 when it is typically too late! • Increased comfort level with trying out new ideas. • Training prior to kickoff with Vex, easyC and REC made the project run smoothly.

19. Was it worth it? Absolutely! • Increased comfort level with final design • Team 40’s most advanced design to date • Great team building exercise. • Increased student knowledge and awareness • Surprise! – BAE regional confirmed most of our Mini FRC findings

20. Would we do it again? Yes! …..but • Get familiar with all the accessories and options for the Vex platform • Build and test various drive trains before kickoff • Set firm dates for mini completion – know when to end the mini robots and start the big one. • Integrate more sensors and programming into the mini designs

21. Questions?