CLOSE
CLOSE
https://aisectlearn.com/wp-login.php?action=logout&redirect_to=https%3A%2F%2Faisectlearn.com%2Fmy-account%2F&_wpnonce=1ce013064b

MC Based Line Follower Robot

Self -Paced Projects

Fee: 499

A MC (microcontroller) based line follower robot is a type of robot that is designed to follow a line on a surface using infrared sensors and a microcontroller. The robot is equipped with several infrared sensors that detect the black or white line on the surface and send signals to the microcontroller. The microcontroller then processes these signals and controls the movement of the robot’s motors to keep it on the line.

The project involves several components such as a microcontroller, motor driver, sensors, wheels, chassis, and battery. The microcontroller is the brain of the robot and is responsible for receiving signals from the sensors and controlling the motors. The motor driver is used to control the speed and direction of the motors. The sensors are used to detect the line on the surface, and the wheels are used to move the robot along the surface.

Objectives

The project involves designing and building the robot from scratch, which includes assembling the components, programming the microcontroller, and testing the robot's performance. The programming involves writing code for the microcontroller to control the movement of the motors based on the signals received from the sensors.

The main objective of this project is to develop a reliable and efficient MC-based line following robot that can navigate on its own in real-time.

What Will You Learn

Building an MC based line follower robot can be a great way to gain hands-on experience and develop practical skills in STEM fields. The project can also inspire a deeper interest in robotics and automation, leading to further exploration of related concepts and technologies.

Skills you will gain
Electronics: Understanding the basic principles of electronics, such as circuits, components, and how to assemble and troubleshoot them.
Microcontroller programming: Learning how to write code for the microcontroller to control the motors and sensors, as well as how to debug and test the code.
Robotics: Learning the fundamentals of robotics, such as robot design, kinematics, and control systems.
Sensors: Understanding the different types of sensors, such as infrared sensors, and how they can be used for various applications.
Problem-solving: Developing problem-solving skills by identifying and resolving issues during the construction and programming of the robot.

Curriculum

  • Project's Prelude

  •  
  • Project's Problem Description

  •  
  • Project's Problem Statement

  •  
  • Project's Objective

  •  
  • Project's Expected Features

  •  
  • Project's Future Enhancement

  •  
  • High level Architecture and workflow and Technology

  •  
Get Skilled, Get hired by Top Companies.