Great job!, but as a referee, I count at lease 5 instances of improper launch, or robot not totally clearing. Also, M3 Immersice Exp fell back down. Also at 1:16, expert that fell out can not be taken back + loose 1 token. Robot operator can not crose to other side during match.
Thanks for your comments! The handling could definitely be better. The video was for my 2nd or 3rd practice of one-person-run. I understand one-person-to-run-all is not allowed in the formal competition. My team has been practicing with 4-technicians and able to complete in 2min 15 sec. I just felt it might be fun to see how much one person can do (because earlier we felt that one person is impossible to handle this). Now I am able to do 2min 20 sec almost flawlessly 🙂.
I gave full score to immersive experience (the table was unstable, so the mission model moved back) and theater scene change. For sound mixer, we had 70+% chance to get 30 pts. In this practice run, it made 20 pt.
Great job! How do you control your robot so accurately? Our team has been struggling in navigation. Our robot behaves differently even with the same code.
Yup. One tip I give to you guys (not the team on video) is to try using gyro to correct the moves by yaw angle. Try using the following formula to describe your straight line moves: (0 - angle)*correction factor (the correction factor I use is 2). To curves, try setting the power to (robot angle - desired angle)*correction factor (now, I use 0.9 as correction factor). This will make your robot moves more precise itself, correcting some issues and mistakes it may have. But as the guy in the video said, it's important to check your building, code, launching etc. Good luck! @@robotedwin7085
There are a couple things you can do to make your robot more accurate. Like he previously mentioned, make sure the mechanics of your robot aren't unpredictable, i.e make sure the tires aren't skidding, gears aren't coming loose etc. Also make sure you're always setting the robot to move for a certain number of revolutions, not a certain amount of time/seconds. If you don't do this, it can act unreliably - especially on low battery. Also, finding a way to use the color and distance sensor to more accurately move can help in some situations.
wow
It's quite big compared to other competition robots
wow... that's cool
and the kid build all these?
Great job!, but as a referee, I count at lease 5 instances of improper launch, or robot not totally clearing. Also, M3 Immersice Exp fell back down. Also at 1:16, expert that fell out can not be taken back + loose 1 token. Robot operator can not crose to other side during match.
Thanks for your comments! The handling could definitely be better. The video was for my 2nd or 3rd practice of one-person-run. I understand one-person-to-run-all is not allowed in the formal competition. My team has been practicing with 4-technicians and able to complete in 2min 15 sec. I just felt it might be fun to see how much one person can do (because earlier we felt that one person is impossible to handle this). Now I am able to do 2min 20 sec almost flawlessly 🙂.
Great job, but when i counted you guys got 415-465 this round, but this robot is definitely capable of 515
I gave full score to immersive experience (the table was unstable, so the mission model moved back) and theater scene change. For sound mixer, we had 70+% chance to get 30 pts. In this practice run, it made 20 pt.
Congratulations, what did you do for the project?
Our project is also about robot
Great job! How do you control your robot so accurately? Our team has been struggling in navigation. Our robot behaves differently even with the same code.
Agreed
Try to do some correction. Making the robot movement more "accurate" depends on many things (code, design, even the choice of tire).
@@robotedwin7085 I tried but it still won’t always do it correctly, for mission 7 and 13 at one time
Yup. One tip I give to you guys (not the team on video) is to try using gyro to correct the moves by yaw angle.
Try using the following formula to describe your straight line moves: (0 - angle)*correction factor (the correction factor I use is 2).
To curves, try setting the power to (robot angle - desired angle)*correction factor (now, I use 0.9 as correction factor).
This will make your robot moves more precise itself, correcting some issues and mistakes it may have. But as the guy in the video said, it's important to check your building, code, launching etc.
Good luck!
@@robotedwin7085
There are a couple things you can do to make your robot more accurate. Like he previously mentioned, make sure the mechanics of your robot aren't unpredictable, i.e make sure the tires aren't skidding, gears aren't coming loose etc. Also make sure you're always setting the robot to move for a certain number of revolutions, not a certain amount of time/seconds. If you don't do this, it can act unreliably - especially on low battery. Also, finding a way to use the color and distance sensor to more accurately move can help in some situations.