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• Line follower algorithm
  The easiest line follower algorithm is the Zig Zag algorithm, which makes the robot move like zig zag The color sensor is used to read the color of line and surroundings.
  2 KB (336 words) - 10:49, 25 October 2020
• Line follower Zigzag py v2
  The zigzag line follower actually follows the other side of the line. If the intensity obtained by the sensor is greater than some threshold val ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  3 KB (489 words) - 06:42, 23 September 2020
• Line follower proportional py v2
  The proportional line follower actually follows the other side of the line. The turning radius is calculated using the minimum, maximum and current co ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  4 KB (546 words) - 07:48, 23 September 2020
• Line follower Zigzag py v2/en
  The zigzag line follower actually follows the other side of the line. If the intensity obtained by the sensor is greater than some threshold val ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  3 KB (445 words) - 06:45, 23 September 2020
• Line follower Zigzag py v2/fi
  [[Category: Line follower]]
  3 KB (363 words) - 06:56, 23 September 2020
• Line follower proportional py v2/fi
  [[Category: Line follower]]
  3 KB (402 words) - 08:01, 23 September 2020
• Line follower proportional py v2/en
  The proportional line follower actually follows the other side of the line. The turning radius is calculated using the minimum, maximum and current co ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  3 KB (486 words) - 08:00, 23 September 2020

Page text matches

• Python v2
  *[[Stop at line py v2]] *[[Line follower Zigzag py v2]]
  572 bytes (86 words) - 12:05, 22 September 2020
• Proportional coding
  ...tant topic on mathematics curriculum. The proportionality means a straight line (with slope, or gradient, <math>m</math>) passing through the origin. In ro Slope, straight line. Multiplication.
  3 KB (433 words) - 11:39, 16 October 2020
• Line follower algorithm
  The easiest line follower algorithm is the Zig Zag algorithm, which makes the robot move like zig zag The color sensor is used to read the color of line and surroundings.
  2 KB (336 words) - 10:49, 25 October 2020
• Follow a line/en
  There a multiple different methods (algorithms) to follow a line. We show two simplest methods (which can be coded with a huge variety), als ...asiest line is smooth, but it might contain very sharp turns. However, the line should not cut itself.
  4 KB (636 words) - 12:34, 14 September 2020
• Follow a line
  There a multiple different methods (algorithms) to follow a line. We show two simplest methods (which can be coded with a huge variety), als ...asiest line is smooth, but it might contain very sharp turns. However, the line should not cut itself.
  4 KB (704 words) - 12:21, 14 September 2020
• Meet and Code 2020 II: Python/en
  * code the robot to [[Line follower Zigzag py v2| follow line (ZigZag)]] using Zig Zag algorithm * code the robot to [[Line follower proportional py v2| follow line (prop) ]] using Proportional algorithm
  2 KB (320 words) - 12:18, 22 September 2020
• Line follower Zigzag py v2/en
  The zigzag line follower actually follows the other side of the line. If the intensity obtained by the sensor is greater than some threshold val ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  3 KB (445 words) - 06:45, 23 September 2020
• Meet and Code 2020 II: Python
  * code the robot to [[Line follower Zigzag py v2| follow line (ZigZag)]] using Zig Zag algorithm * code the robot to [[Line follower proportional py v2| follow line (prop) ]] using Proportional algorithm
  2 KB (348 words) - 12:18, 22 September 2020
• Line follower Zigzag py v2
  The zigzag line follower actually follows the other side of the line. If the intensity obtained by the sensor is greater than some threshold val ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  3 KB (489 words) - 06:42, 23 September 2020
• Line follower proportional py v2/en
  The proportional line follower actually follows the other side of the line. The turning radius is calculated using the minimum, maximum and current co ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  3 KB (486 words) - 08:00, 23 September 2020
• Algorithms/en
  * [[Special:MyLanguage/Line Follower|viivanseurantaan]]
  803 bytes (90 words) - 21:03, 19 June 2020
• Line follower proportional py v2
  The proportional line follower actually follows the other side of the line. The turning radius is calculated using the minimum, maximum and current co ...move faster. Note that you need to change the parameters according to your line to follow (and robot). Generally, it is advised to change only one value at
  4 KB (546 words) - 07:48, 23 September 2020
• Stop the robot after the third line/en
  How to stop the robot after passing the third (or ''n''th) line? This problem is very often encountered in FIRST Lego League (FLL) or in Re ...but the reading frequency is rather large. Thus, during passing the black line, the sensor reads hundreds of close to zero, or black, values. See, the ima
  3 KB (500 words) - 10:29, 15 September 2020
• Meet and Code 2020 II: Python/fi
  * koodata robotti [[Line follower Zigzag py v2| seuraamaan viivaa ZigZag]]-algoritmilla * koodata robotti [[Line follower proportional py v2| seuraamaan viivaa verrannollisella ]] algoritmilla
  2 KB (287 words) - 12:35, 22 September 2020
• Algorithms
  * [[Special:MyLanguage/Line Follower|viivanseurantaan]]
  1 KB (183 words) - 00:50, 22 August 2023
• Stop the robot after the third line
  How to stop the robot after passing the third (or ''n''th) line? This problem is very often encountered in FIRST Lego League (FLL) or in Re ...but the reading frequency is rather large. Thus, during passing the black line, the sensor reads hundreds of close to zero, or black, values. See, the ima
  3 KB (564 words) - 10:11, 15 September 2020
• Robot Exercises
  | Follow the line using Zigzag || Python ||M || Meet and Code 2020 | Follow the line using proportional algorithm || Python ||M || Meet and Code 2020
  4 KB (542 words) - 12:13, 13 January 2022
• Mahtavaa Matematiikkaa 2020/en
  II Line follower algorithm
  987 bytes (137 words) - 07:48, 12 September 2020
• Numerical integration and differentation in the PID algorithm
  ...s for Proportional, I is the Integral and D is Differential. We use PID in line following. ...ther to <math>K_i</math> already). Of course, the parameters depend on the line and robot.
  5 KB (790 words) - 11:57, 18 October 2020
• Mahtavaa Matematiikkaa 2020/fi
  II [[Line follower algorithm|Viivanseuranta]]
  1 KB (162 words) - 10:34, 25 October 2020

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