🤖
Booting Remesys...
🤖 Class 1 🎨 Class 2 💡 Class 3 ⚡ Class 4 🐍 Class 5 🧠 Class 6 👁️ Class 7 🚁 Class 8
NCERT & IB Aligned · Class 1–8

Learn Robotics & AI
Through Play! 🤖

India's most fun and comprehensive AI & Robotics programme for school students. Build real gadgets, code real programs, and become the inventor of tomorrow!

NCERT Aligned
IB Framework
Project-Based
Play-Through-Learning
2 Classes/Week
8
Class Levels
50+
Projects
2/wk
Classes
4
Quarterly Projects
Fun & Learning

Choose Your Class

Click your class below to explore your full AI & Robotics curriculum — packed with simulators, projects, and challenges!

How We Teach & Learn

Play-first pedagogy aligned with NCERT, IB and Remesys's own hands-on framework

Every Concept is a Game

From Class 1 to Class 5, teachers introduce every concept through play — colour-sorting robots, drawing challenges, music-making circuits, and interactive stories. Learning happens without students even realising it!

🎨 Drawing Robots 🎵 Musical Circuits 🎮 Coding Games 🧩 Block Puzzles
🎮
🔧

Build Real Things

Students don't just read about robots — they BUILD them! Every 10 weeks, a full project is designed, built, tested and presented. This develops engineering mindset, debugging skills and public speaking confidence.

🏠 Smart Home 🚗 Line Follower 🌱 Auto Garden 🦾 Robotic Arm

Curriculum You Can Trust

Every topic maps to NCERT Science, Maths and Computer Science chapters. We also use the IB inquiry model (Ask → Explore → Explain → Elaborate → Evaluate), making Remesys a perfect extension to any school's learning framework.

📘 NCERT Science 🌍 IB Inquiry 🧮 Maths Integration 💻 Computer Science
📚

Your 8-Year Roadmap

A progressive path from "What is a Robot?" to building AI systems and autonomous drones

1–2

🎨 Discovery & Play (Class 1–2)

Meet robots, draw them, name them. Build with colourful kits. Make lights blink. Use Scratch Jr. to animate stories. Understand that computers follow instructions. Everything is hands-on and playful.

3–4

💡 Circuits & Scratch (Class 3–4)

Build real circuits with LEDs and batteries. Use Scratch to create games. Learn binary numbers. Meet the Arduino for the first time. Build your first line-following robot using IR sensors!

5

🐍 Python Begins (Class 5)

Start coding in Python — the language of AI. Build smart home models with multiple sensors. Create a Bluetooth-controlled car with MIT App Inventor. Design a robotic arm with servo motors.

6

🧠 Machine Learning (Class 6)

Train your first AI model with Google Teachable Machine. Build an IoT weather station. Design PCBs in EasyEDA. Create 3D models in Fusion 360. Connect Arduino to the internet via ESP8266!

7

👁️ Computer Vision (Class 7)

Use OpenCV in Python to build real-time face and emotion detectors. Create a voice-controlled AI assistant. Build a Smart City model with traffic lights, pollution sensors and integrated IoT systems.

8

🚁 Innovation & AI (Class 8)

Understand autonomous drone flight. Explore deep learning and neural networks. Build a health monitoring wearable. Design your own innovation for the Annual Showcase — your debut as an inventor!

What We Use

Industry-standard tools taught in a fun, age-appropriate way

⚙️
Arduino
Microcontroller board for building smart projects
🐍
Python
AI's favourite programming language
🎨
Scratch / Jr
Block coding for Class 1–4
🖨️
3D Printing
Design and print real robot parts
☁️
IoT (ESP8266)
Connect projects to the internet
🧠
Teachable Machine
Train AI models without coding
👁️
OpenCV
Computer vision in Python
📱
MIT App Inventor
Build Android apps with blocks
🔌
TinkerCAD
Online circuit and 3D simulation
🖥️
EasyEDA
PCB design for beginners
📐
Fusion 360
Professional 3D design tool
🤝
Team Collaboration
Work in teams on real projects

Frequently Asked Questions

What age group is this programme for?
Class 1–8 (ages 6–14). Content is age-appropriate and grows progressively — from drawing robots and block coding for youngest students, to Python, AI, and electronics for older ones.
Do students need prior coding experience?
Absolutely not! Class 1–2 starts with drawing and building. Block coding begins in Class 2–3. Text coding only starts from Class 4–5. Everything is introduced step-by-step at the right age.
What hardware does the programme use?
Arduino boards, robotics kits, sensor packs (temperature, ultrasonic, IR, soil, LDR sensors), servo and DC motors, 3D printers, computers, and LED classroom displays. All provided in STEM lab sessions.
How many classes happen per week?
2 classes per week (45–60 min each), plus quarterly project days and the Annual Innovation Showcase. ~80–90 learning sessions per year.
What is the Annual Showcase?
A grand year-end event where every student presents their capstone invention to parents, teachers, and community judges. Students receive certificates, prizes, and recognition for their innovation!
Is this website optimised for STEM classroom LED screens?
Yes! Large fonts, high-contrast colours, visible animations and interactive simulations are designed to work beautifully on big LED classroom displays. Teachers can use the simulators, code editor, robot controls and AI demos with the whole class.

Ready to Build the Future? 🤖

Enrol your child in India's most fun AI & Robotics programme. Franchises in Bengaluru, Kolkata, Chennai & Kochi.