Great News – The Community Foundation of Northern Illinois awarded an $1800.00 In Youth We Trust Grant to Rockford Robotics for our project “Rockford E-Inventors.”
We will use these funds to run summer camp/classes based on the SparkFun Inventors Kit. Theses kits are a great way to get started with programming and hardware interaction with the Arduino programming language. They include everything needed to complete 15 circuits that teach users how to read sensors, display information on an LCD, drive motors, and more.
After competition season is over, we plan to teach team members to use the SparkFun kits. Then we will advertise our camp to area students. We hope to offer up to ten one-day classes this summer. The classes will be customized for different age groups.
The Rockford Public Library has graciously offered us use of their Sullivan Center computer lab as a class space.
Special thanks to Addie, Eli, Nate, and Rebecca for putting together the grant application and presenting it to the In Youth We Trust Board.
On October 4, 2013, over 800 manufacturers nationwide open their doors to the public in Celebration of Manufacturing Day. Locally, Superior Joining of Machesney Park celebrated by demonstrated laser cutting and laser etching. In addition, they invited Rockford Robotics to their shop so visitors could learn about FIRST Robotics. The Fabricator Blog has a great a article about this event.
On September 28, 2013 Rockford Robotics competed at the RoboFest Off-Season Competition in Milwaukee, WI. RoboFest is part of a weekend festival that celebrates science, technology, engineering, and math. …And we won!
Our team was 6th after qualifying, but we ended up picking 5th out of 5 alliances. We picked Ultimate Protection Squad and Winnovation B team, which ended up being a very well rounded team. UPS scored a lot of autonomous points (usually 18), and Winnovation B played great defense by almost completely shutting down the best offensive teams on the other alliances (which was Winnovation A in the finals.) We went through 3 matches without losing a game. Our drive team was excellent as we hit almost all our autonomous points, and then eluded the defense to score a lot of teleop points.
The inaugural Rock River Off-Season Competition was an exciting and successful event. Twenty teams from Illinois, Indiana, Iowa, Missouri, and Wisconsin brought their 2013 robots to Rock Valley College to play Ultimate Ascent yet another time.
We thank the Northern Illinois Community and the FIRST family for their outstanding support. And we look forward to working with Flaming Monkeys (Team3352), Metalheads (Team 0081), Stateline Robotics (4655), and Winnovation (Team 1625) again in 2014.
The R2OC winning alliance include Rockford Robotics, Winnovation, and Michigan City Robots.
You can learn more about the event on the Rock River Off-Season Competition website.
Our 2013 season could be considered one of continuous quality improvement.
By refining our robot design, practicing our driving skills, and adjusting our game strategies, we improved our team’s performance at each event in which we participated.
At our first competition in Wisconsin, we finished 52 out 57. After addressing frisbee loading and stability issues, we finished 31 out of 53 at our second competition in Chicago.
We were excited to be invited to the St. Louis Championships, where we were assigned to the Curie Division. At the competition, it was apparent that our design strategy of being a tall cross-court powerful shooter with a quick 10-point consistent climb proved to be a good plan. While we were seeded 60 out of the 100 teams in our division, we finished 22th. And our robot was assigned to serve as an alternate during the elimination rounds.
Students logged over 3300 man-hours while designing and constructing our 2013 robot. We’re proud of the results of their hard work. We look forward to applying the lessons learned in 2013 to the next build season.
With the stop build time of midnight Tuesday soon arriving, students are putting in long hours and extra effort.
Construction of all the mechanical subsystems is complete, this includes: the Frisbee pickup system, the conveyer, the shooter, and the drive train. Students are now integrating these subsystems into the bot in order to produce our final robot.
The programming team has completed the base code. Individual members are now developing final Lab View code for specific operations. They are also addressing some last minute design changes. Student programmer Andrew is customizing the driver station dashboard.
The Electrical team has finished wiring both of the electrical boxes. They have created mounting brackets and placed them on the robots for the electric boxes. They are also using bolts to hold the boxes onto the brackets. This allows them to have easier access to removing the electrical box if needed.
Our Mechanical team is currently reworking the pick-up system. The launcher sub-team is continuing to develop a launching system, and the pick-up sub-team is working hard on the feeding mechanism for the launcher. They are also finishing the conveyor systems. Additionally, another sub-team is putting bumpers on the rookie bot to help the drivers practice.
The programming team has finalized the psuedo code. They also have finished the base code. They are beginning to code in Lab View.
The mechanical team finished assembling the drive train. The electrical team finished the main electrical box. Both teams are working together to mount the electrical box on the drive train.
A sub-team is mounting the pick up mechanism onto the front of the drive train. Another sub-team completed construction of the shooter. Next step is to attach it to the drive train.
The programming team completed the robot pseudo code. The pseudo code provides the logic programmers use to develop the actual Labview code.
Our mechanical subteams have been hard at work. Students working on the drive train have cut spacers, assembled wheels, and sized and chained the ‘bot. Other students are finishing the braces for picking up frisbees and are currently designing four bar linkages for climbing the tower.
The programming team completed a new drive train program that should improve robot acceleration and speed. The CAD team is redesigning a customized gear box. The electrical team is installing Victor motor controllers on the robot side panels. This will save us room in the electrical box.
Our goal is to complete the robot by week 5 so we can participate in pre-ship mock competition.
Our students have been working hard on designing our robot. The Mechanical sub-team has cut two frames and sent them out to be fabricated. They then painted both frames and are now assembling the drive train. The pick-up and shooting sub-teams have been working on prototypes for the final bot.
The Programming sub-team has continued optimizing PIE control drive train.
Our students working with CAD are nearly finished with drawing our shooting system and our drive train and are starting to draw up designs for pick up.
We finished the Frisbee loader and climbing pyramid portions of the practice field.