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Thread: Miscellaneous

  1. #1

    Miscellaneous



    mOway robot in Robocup Jr Italia 2013

    Published on Apr 26, 2013

  2. #2


    Line Follower Robot

    Published on Apr 29, 2013

    My first Line Follower Robot
    Specification:
    - IC ATMEGA16
    - 2 Mini Motor DC 500 RPM
    - L293D Motor Driver
    - 2 Cell Battery 1 Ampere
    - 8 Photo Dioda sensor (Only 6 in use, because one of them died :'( and one another dissabled to balance)

    All body design and Program by Me.

  3. #3


    Line Following Robot with obstacle avoidance (Lejos NXT) - IIT G

    Published on Apr 30, 2013

    The video shows the working demo of Line Following Robot with obstacle avoidance (Lejos NXT) developed by Arif Ali Ap, Zinabu Haile and Prayag Surendran at IIT Guwahati

    The robot has to traverse an arena to reach a destination area. The destination lies towards the southern region of the arena. There is a path in the arena which leads to the destination. The path is black in colour over a white surface. This path ends in a red coloured region which is the destination. The trajectory of this path is variable (such as straight, zig-zag, circular etc.). There are obstacles of different shapes and sizes along the path. While traversing, the robot has to avoid any collision with those obstacles and keep following the path. If a yellow coloured strip is found on the path by the robot that would mean there is a junction point ahead wherein two or more paths diverge. The robot has to decide which way to go to reach the destination.

  4. #4


    Marco - line following robot
    April 8, 2013

    One of my three pieces of robotics coursework for my first year at UWE. Song in the background is "Ready Set Loop" by SBTRKT

  5. #5


    Computer vision line following

    Published on Jul 5, 2016

    The piece of tape is identified through OpenCV edge detection and line transform algorithms. In the first version, only a small region of the full camera is used to centre the robot on the line - the robots movement is controlled using a proportional control loop at 30hz. In the second version, additional complexity is added by also performing computer vision operations on the entire camera view. The robot determines if there is a turn coming up by looking at the line angles with respect to its orientation and then speeds up or slows down.

  6. #6


    Line following robot

    Published on Feb 14, 2019

    This video is a continuation video of an Obstacle Avoiding Robot to Line Following Robot. It's actually easy to do it!

  7. #7

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