Intelligent Path-Following Robot

Intelligent Path-Following Robot

Description

The Intelligent Path-Following Robot is a student robotics project that demonstrates the use of sensors, motor control, and automation to follow a predefined path. This working model simulates how autonomous robots and vehicles can navigate routes without human intervention, making it an excellent example of STEM-based learning.

The robot’s body is constructed using a chassis fitted with BO wheels and a caster wheel for stable mobility. BO motors, mounted securely with nuts and bolts, provide the driving force for movement. The IR sensor module is the core component, responsible for detecting black or white lines on the surface. This allows the robot to follow paths drawn on the ground with accuracy.

The L293D Motor Driver Module is used to control the motors based on the signals from the IR sensor. Supporting electronics such as the 7805 voltage regulator, connecting wires, and 9V battery clip ensure smooth power management and reliable operation.

This project is ideal for demonstrating real-world applications such as self-driving cars, warehouse robots, automated delivery systems, and industrial transport bots. It teaches students important concepts of embedded systems, electronics, and automation, making it highly suitable for science fairs, engineering workshops, and robotics competitions.

Materials Used

• Chassis
• IR Sensor
• BO Wheels
• Caster Wheel
• BO Motors
• Nuts and Bolts
• L293D Motor Driver Module
• 7805 Voltage Regulator
• 9V Battery Clip
• Connecting Wires