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Academic Year LINE FOLLOWER

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Presentation on theme: "Academic Year LINE FOLLOWER"— Presentation transcript:

1 Academic Year 2015-16 LINE FOLLOWER
Prepared by : SHAILI HARIYANI HENY PATEL HIMANSHU AGARWAL HIMANSHU SHARMA Department Of Electronics & Communication Engineering Sarvajanik College of Engineering & Technology Dr R.K. Desai Road, Athwalines, Surat , India

2 INTRODUCTION A robot is a reprogrammable, multifunction, manipulator designed for moving materials, tools, parts etc. through various programmed motions to perform a variety of tasks. The line follower is a self-operating robot that detects and follows a line that is drawn on the floor . The line follower robot using microcontroller is a self-operating system that detects and follows track drawn on the floor. The track consists of a black tape on white surface or vice versa.

3 MOTIVATION Classical line following robot is slow response to the error occur, will easily leave its track that drawn on the floor. This problem will result the motion of the robot to be unsmooth and sometimes robot tends to move out of the track. Although the line following robot can follow the black line, its motion still needs to be improved, so to overcome that problem, we need a better controller to make robot follow the line smoothly and make less error. The motion of line following robot can be improved by using feedback mechanism which forms an effective closed loop system.

4 OBJECTIVE To design and develop an autonomous robot that follows a black line drawn on the floor . To study the concept of infrared sensors and ADC interfacing, servo motors, and AVR microcontroller.

5 Block Diagram

6 Circuit Diagram

7 Flow chart

8 Hardware/Software Requirement
Hardware requirement - ATmega16 (Microcontroller Kit) - gear motor 100rpm - IR LED - phototransistor - Motor driver L298 Software requirement - AVR studio - proteus 8

9 Work Planning

10 OUTPUT ROBOT MOVEMENT

11

12 Left Motor Right Motor Robot Movement Straight Stop Left Reverse Sharp left Right Sharp Right

13 H-Bridge configuration

14 Proteus simulation

15 Summary Line follower robot captures line position with optical sensors mounted at front end of the robot. For this a combination of IR LED’S and phototransistor called an optical coupler has been used. Requirement for line sensing process are high resolution and high robustness.

16 References ATMEGA 32L DATASHEET [Online]. Available at
< (Accessed on 3rd May, 2013) Kanayama, Y., N. Miyake, "Trajectory Generation for Mobile Robots", Robotics Research,vol. 3, pp , The MIT Press, 1986. Ablab solutions <

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