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!