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String Theory: <G22> at the Championships
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This is a suggestion for those attending championships who are concerned with violating rule <G22>, also known as “breaking the plane.” Though I cannot be sure that this suggestion will work in practice, it is very easily implemented and I thought I ought to submit my string theory :) for those who might want to try it.
The idea: Attach a length of brightly colored string (EDIT: or nylon rope) to the bottom of your robot, near the back end (if your robot has a rear). The string should be coiled and laid under the robot within the appropriate dimensions prior to each match. The length of the string will vary from team to team because the robot, with the string fully extended, will need to adhere to the 80” rule. I imagine that a 1-to-2-foot length of string will probably be sufficient to achieve the goal. The result: At the beginning of the match, as soon as the robot moves forward from the starting position, the coiled string will uncoil and trail behind the robot. The length of the string and where it is attached to the bottom of the robot will determine how far behind the robot the end of the string lags behind while the robot travels forward. When the robot stops moving forward, so will the string. Most importantly, however, when the robot backs up, the tail end of the string will remain in place. The string thusly provides a buffer zone for backing up and turning when the robot is in the vicinity of a lane marker or finish line and, ideally, prevents many of the <G22> violations that are most likely to occur during the heat of competition. The positives: + Once completely over a line, the string itself will not break the plane of a lane marker or finish line because it is not rigid, but slack. + The main structure of the robot will have a buffer zone in which to maneuver even after crossing a line, because the string (which counts as part of the robot) will not yet have fully crossed over the line. The negatives: - A robot will have to travel farther in order for the trailing string to completely cross a line and for the robot to receive points for doing so. Attached is a series of slides roughly illustrating the concept. If you have any comments, suggestions, or additions to the positives or negatives, feel free. I simply wanted to put this out there. Good luck to all teams! |
Re: String Theory: <G22> at the Championships
Seems to me like it could be a huge entanglement hazard with both mechanisms and wheels of other robots
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Re: String Theory: <G22> at the Championships
Quite true....but I think he may be on to something.
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Re: String Theory: <G22> at the Championships
Well, considering our robot extends to 79.5" in the worst case... i dont think we will be doing this )=
its a good idea though, but i don't like the entanglement issues. |
Re: String Theory: <G22> at the Championships
I like the concept of this! Very good idea. Like others have mentioned entanglement could be an issue.
Great idea keep on thinking! |
Re: String Theory: <G22> at the Championships
Hmm... this seems similar to the zip-ties used in 2005 in order for the robot to be in contact with the loading zone plate, because clearly straddling the plate was not enough. Three years, and we're still improvising to make up for a lack of common sense in the rules. However, this is tangent to the topic.
The string could be an entanglement hazard with other robot's wheels and be a nuisance overall. Great creativity though! -Alex |
Re: String Theory: <G22> at the Championships
This reminds me of the extending tape measures of zone zeal a few years back. Overall I like it. It will be tough to make sure people don't step on your tale, but I really think you are on to something. Very clever...
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Re: String Theory: <G22> at the Championships
I like the idea, although you'd have to make sure you don't get 'hooked' on to the center divider while going around the end lines.
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Re: String Theory: <G22> at the Championships
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Re: String Theory: <G22> at the Championships
I had thought about this during the Detroit Regional, but our team didn't have the extra space so I didn't bring it up. Entanglement would be a problem, but out of the box ideas can be a great way to solve a problem. This idea should be tried at Atlanta.
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Re: String Theory: <G22> at the Championships
Somehow this seems inconsistent with my pet peeve of seeing students walk around with their shoelaces untied. I tend to freak out, imagining that they're going to trip, most likely while carrying the robot.
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Re: String Theory: <G22> at the Championships
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Our robot looks like it's about as long as a semi when it has the ball held out front (it fits 80" requirement, but only just)... I wouldn't want to push it with a string. The best anti-G22-solution you ask? Don't back over lines. :] -q |
Re: String Theory: <G22> at the Championships
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Its like this your Robot is sitting on the field and another Robot runs into you and breaks because of an entanglement, but then latter you start driving again. You are in no way responsible for the contact and thus can't get a penalty. I would suggest using something thicker like Rope that has a smooth surface so it doesn't get caught on the walls (that's your biggest problem). Wish we could try this but were not going to Nationals. |
Re: String Theory: <G22> at the Championships
Hmmm ... I was just thinking ...
Since the string would be lying on the ground, if it contacted another robots wheels could you be hit with an outside the bumperzone contact penalty? |
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