Hours: 24
Schedule: Flexible ( 3 hrs / week, 8 weeks program)
Group: 5 to 10 students
Course Structure
Level 1: Robotics Explorers
Goal: Learn basics of robots, sensors, and block-based programming.
Modules:
What is a Robot?
Introduction to robotics and automation
Real-life robot examples (home, industry, space)
Parts of a Robot
Motors, wheels, chassis, sensors (IR, ultrasonic)
Power supply and controller board overview
Block-Based Programming (using LEGO WeDo / mBot / Arduino Blocks / Scratch)
Movement: Forward, backward, turns
Simple logic: If-else, loops
Obstacle detection and buzzer alerts
Mini Projects
Line follower
Obstacle-avoiding robot
Level 2: Young Robotics Programmers
Goal: Learn to program real-world robots using structured logic.
Modules:
Arduino & Electronics Basics
Introduction to Arduino Uno
Breadboard, sensors, LEDs, buzzer, IR, and ultrasonic
C++ Programming for Arduino
Pin configuration, delay, digitalRead/write
Loops, conditions, basic debugging
Robot Movement Programming
Motor control with L298N
Speed control using PWM
Sensor Integration Projects
Light-sensing robot
IR remote-controlled robot
Mini Project
Create a security alarm robot or traffic signal simulator
Level 3: Robotics Engineers
Goal: Dive deeper into robot design, logic, and IoT concepts.
Modules:
Advanced Arduino Programming
Functions, arrays, analog input
Servo motor and display modules (LCD/OLED)
Bluetooth & App-Controlled Robot
HC-05 module setup and communication
Android mobile app (MIT App Inventor) to control robot
Sensor Fusion
Combine multiple sensors for complex tasks
Line tracking with IR arrays
Obstacle + speed control
Mechanical Design Basics
Chassis design, weight balance, mounting sensors
Mini Project
Bluetooth-controlled home automation system
Line-following delivery robot
Level 4: Advanced Roboticists
Goal: Prepare students for real-world robotics and automation careers.
Modules:
Raspberry Pi Introduction
Python programming for Raspberry Pi
GPIO control, camera module, Pi OS
Robotics with AI
Object detection using OpenCV
Voice-controlled robotics (Google Assistant or Alexa Integration)
IoT in Robotics
Wi-Fi-controlled robots (ESP8266 or NodeMCU)
Firebase or Blynk dashboard integration
Autonomous Vehicle Programming
GPS and real-time location tracking
Self-parking logic using ultrasonic sensors
Capstone Project
Home automation bot, surveillance bot, or smart farming robot
Features:
- Theory + Labs
- Engaged students by various exampls and interesting labs
- Homework and project
- Various Programming Levels to choose
- Courses are aligned for the Middle and High school course content
- Special batches for Summer / Winter sessions
- Fun events