Kit: Line Following Robot
Product Description
Have you ever seen a robot moving away from the black line and losing its path because the sensors cannot detect the line correctly? Why does that happen, and how could technology help the robot follow the path automatically?
The Line Following Robot Kit empowers beginners to learn real-world robotics through hands-on experiments and problem-solving. Designed for students and electronics enthusiasts, this comprehensive kit features the Lab Series curriculum, progressing from foundational concepts to advanced topics.
This kit delivers three essential competencies:
- Reinforce your problem solving skill, by getting started with the designing the algorithm
- Getting started with Arduino programming fundamentals and core coding principles
- Control DC motors and read signals from IR sensors to allow the robot to move forward, turn left, and turn right automatically
We're putting the finishing touches on this kit. Get notified the moment it's available!
Notify Me on TelegramJoin the Stablu FabLab Newsletter channel to get notified when this kit launches.
Lab Curriculum
Lab 01: Basic Line Following
Lab 01: Build Line Following Robot "Open Loop Control" is the first project in the Line Following Robot Lab Series. This short experiment will walk you through the basic basics of the line-following robot project, including how to use each component and some important tips before you start coding in the Arduino IDE. This Lab 01 starts with three infrared IR sensors that detect lines placed in front of the robot, with the Central IR Sensor acting as a guide for traffic on the road and the Side IR Sensors for detecting wrong-way signals to steer the robot back to the right path. The four motors for the robot moves when it receives a command from the Arduino UNO.
Lab 02: Line Following Robot Closed Loop Control
🚀 Coming Soon! This product is not yet available for purchase. Stay tuned for the launch! Lab 02: Line following Robot "Closed Loop Control" is the second project in the Line Following Robot. This project presents the design and implementation of an enhanced smoke detection system using an Arduino Uno microcontroller. The system integrates multiple sensors, including a gas sensor to detect harmful gases (smoke) and a Passive Infrared (PIR) sensor to detect human presence. Then every time the smoke is detected, the system signal buzzer to alert sound alarm immediately. Additionally, two LEDs were used to visualize real-time situation which red is for emergency, while blue is for human's present.
Learning Outcomes
- Understand Arduino Programming Fundamentals.
- Understand how to use IR sensor and control Motor.
- Read schematic a skill that unlocks every future project.
- Algorithmic Thinking build the logic yourself.
Product Specifications
No specifications listed.
Resources
No documents available.