🤖
BOOTING REMESYS...
NCERT & IB Aligned • Class 1–8

Learn Robotics &
AI Through Play! 🤖

Explore the exciting world of Robots, AI, Arduino, Sensors, Coding & 3D Printing! Build amazing gadgets, solve real problems & become the inventor of tomorrow.

8
Class Levels
50+
Projects
2
Classes / Week
Fun & Learning

Choose Your Class Level

Age-appropriate curriculum from Class 1 to Class 8, growing with every grade!

🎨
Robots Are My Friends!
Meet robots in real life. Learn what robots can do, where we see them, and draw your own robot friend. Storytelling with robots!
DrawingStorytellingSorting
🧩
Block Coding Adventures
Learn to give instructions using colourful blocks. Make a character move, turn, and dance using Scratch Jr.! No typing needed.
Scratch JrSequencesLoops
🔦
Light & Sound Play
Discover how lights blink and buzzers beep. Create simple circuits with batteries and bulbs. Understand ON/OFF just like a computer!
CircuitsLEDBuzzer
🏗️
Build & Play: My First Robot
Use coloured blocks and kits to build a simple moving toy robot. Learn about wheels, motors, and how things move!
Robotics KitMotorsWheels
🧠
What is AI? Ask a Robot!
Understand that computers can learn from examples. Play games to teach an AI to sort shapes, colors, and animals. Fun AI demos!
AI BasicsPatternSorting
🖨️
3D Printing Magic
Watch how 3D printers work and create designs using simple digital tools. Print your name in 3D and take it home!
3D DesignTinkerCADCreative
💻
Scratch Coding World
Create animated games and interactive stories in Scratch. Learn loops, conditions, events and build your first game from scratch!
ScratchGamesAnimation
Arduino for Beginners
Meet the Arduino board! Upload your first program to blink an LED. Learn pins, power, and how a microcontroller thinks.
ArduinoLEDUpload
🌡️
Sensor Magic
Discover temperature, light, and touch sensors. Connect them to Arduino and make your room smart — auto light, temperature display!
SensorsDHT11LDR
🤖
Line Following Robot
Build a robot that follows a black line using IR sensors! Understand how robots detect and respond to their environment automatically.
IR SensorMotorsAutonomy
🧮
Binary Code & Logic
Learn how computers count in 0s and 1s. Play binary number games and understand logic gates AND, OR, NOT in a fun visual way.
BinaryLogicComputer Science
🌐
Web Simulation Lab
Use TinkerCAD Circuits to simulate Arduino online. Build virtual circuits before touching real hardware — safe and super fun!
TinkerCADSimulationVirtual Lab
🐍
Python Basics
Start coding in Python — the language of AI! Learn variables, loops, functions and create mini programs that do real things.
PythonFunctionsVariables
🏠
Smart Home Project
Build a mini smart home model with auto lights, temperature monitor, intruder alarm and a motor-driven gate using Arduino and sensors.
ArduinoIoTSensors
🦾
Robotic Arm
Build and program a servo-powered robotic arm. Learn about degrees of freedom and control multiple joints to pick and place objects!
ServoRobotic ArmControl
🧬
AI Sorting Machine
Build a conveyor belt that uses a color sensor to sort colored blocks automatically. Introduce machine decision-making!
AIColor SensorAutomation
📡
Bluetooth Robot Control
Control your robot with a smartphone via Bluetooth! Build a RC car and write the control app using MIT App Inventor.
BluetoothApp InventorRC Car
🌱
Smart Garden
Create an automatic plant watering system using a soil moisture sensor and water pump. Learn about environmental sensing!
Soil SensorWater PumpAutomation
🐍
Python + Data Science
Dive deeper into Python. Analyse data with lists, dictionaries and create visual charts. Understand what data science means!
PythonDataMatplotlib
🧠
Intro to Machine Learning
Train an image classifier using Google Teachable Machine. Teach your computer to recognise gestures, faces, and objects!
MLTeachable MachineAI
🚗
Obstacle Avoidance Robot
Build an autonomous robot that avoids obstacles using ultrasonic sensors. Programme decision trees to navigate a maze!
UltrasonicAutonomousMaze
💡
Electronics & PCB Design
Understand resistors, capacitors, transistors. Design your own circuit board layout using EasyEDA and learn about current and voltage.
ElectronicsPCBEasyEDA
☁️
IoT — Internet of Things
Connect Arduino to the internet using ESP8266. Monitor your room's temperature on your phone from anywhere in the world!
ESP8266WiFiIoT
🖨️
Advanced 3D Design
Design complex 3D models using Fusion 360 or TinkerCAD. Create functional parts for your robots — gears, brackets, enclosures!
Fusion 3603D PrintDesign
👁️
Computer Vision
Use OpenCV in Python to process images and video. Build a face detector, gesture recogniser and real-time object tracker!
OpenCVPythonCV
🤖
Advanced Robotics
Build a multi-sensor robot with obstacle avoidance, line following AND object detection. Use PID control for precision movement!
PIDMulti-SensorAdvanced
🗣️
Voice-Controlled AI
Build a voice assistant that understands commands. Integrate speech recognition with Arduino to control LEDs and motors by speaking!
Speech AINLPVoice
Renewable Energy Tech
Build solar-powered circuits and wind energy models. Measure energy output with sensors and understand sustainable technology!
SolarWindSustainability
🌐
Web + Hardware Integration
Build a webpage dashboard that controls real hardware. Connect HTML/CSS/JS frontend to an Arduino via Serial or WiFi!
HTML/CSSSerialDashboard
🏙️
Smart City Project
Model a smart city with traffic lights, automatic street lamps, pollution sensors and emergency alerts — all connected on one system!
Smart CityIoTSystems
🦾
Autonomous Drone Basics
Understand how drones fly with gyroscopes and accelerometers. Program a drone for basic autonomous tasks using flight controllers!
DroneGyroscopeAutonomous
🧠
Deep Learning Intro
Understand neural networks using visual tools. Train a simple digit recogniser and understand how AI sees and learns from images!
Neural NetDeep LearningMNIST
💊
AI in Healthcare
Build a health monitoring band with heartbeat sensor, temperature and SpO2. Display data on an OLED and upload it to a cloud dashboard!
HealthTechOLEDPulse Sensor
🏆
Capstone Innovation Project
Design and build your own original invention that solves a real problem in your school, home or community. Present at the Annual Showcase!
InnovationDesign ThinkingShowcase
🔐
Cybersecurity Basics
Learn about encryption, passwords, and how hackers work. Build simple security systems with keypad locks and fingerprint sensors!
CybersecurityEncryptionKeypad
🌍
AI Ethics & Future Tech
Explore the ethical questions around AI. Debate real scenarios, understand bias in AI, and design responsible technology solutions!
AI EthicsFutureSociety

How We Teach & Learn

Aligned with NCERT, IB and our own play-based pedagogy for maximum impact

📘

NCERT Aligned

Our content maps to NCERT Science & Maths concepts, making robotics a natural extension of classroom learning.

🌍

IB Framework

International Baccalaureate inquiry-based thinking models. Students ask, explore, explain, elaborate and evaluate.

🔨

Project-Based Learning

Every concept is applied in a real hands-on project. Students don't just read — they build, test, fail and succeed!

🎮

Play-Through-Learning

Games, simulations, puzzles and competitions make even complex topics like AI and machine learning feel like play!

🏆

Quarterly Projects

Every 10 weeks, students complete a major project, present it to the class, and receive feedback and recognition.

🎓

Annual Showcase

A grand year-end innovation showcase where students present their best inventions to parents, teachers and judges!

Try It Right Now!

Hands-on simulators to explore coding, robotics and circuits — right in your browser!

💻 Code Editor
🤖 Robot Sim
⚡ Circuit Lab
🧠 Quiz
01 Binary Game
remesys_code.py
▶ Click "Run Code" to see output here! Your program results will appear in this panel. 💡 Tip: Try changing the 'name' variable or modify the fibonacci count!
Ready
🕹️ CONTROL ROBOT
STOP
📡 SENSORS
🔊 Ultrasonic (cm) --
🌡️ Temperature 28°C
💡 Light (LDR) --
🔋 Battery 85%
Click anywhere on the canvas to place components • Connect them with wires to build a circuit!

🧠 Robotics & AI Quiz!

Test your knowledge — score points and level up!

Score: 0
Question: 1/10
Level: Beginner 🌱
Loading question...

01 Binary Number Game!

Convert the decimal number to binary! Score points and beat your high score!

Convert this decimal to binary:

13

Type the binary answer:



Score: 0 | Best: 0
💡 Binary Hint (Powers of 2):
2⁷
128
2⁶
64
2⁵
32
2⁴
16
8
4
2
2⁰
1

Amazing Projects to Build

50+ hands-on projects from blinking LEDs to building autonomous robots!

Annual Schedule

2 classes/week, quarterly projects and an annual innovation showcase

Q1

Foundation Quarter

Weeks 1–10 • April – June

Wk 1–2Introduction to Robotics & AI, What is a Robot?
Wk 3–4Block Coding with Scratch / MIT App Inventor
Wk 5–6First Arduino — Blink LED, Basic Sensors
Wk 7–8Circuits — Series, Parallel, Light & Sound
Wk 9–10Q1 Project — Smart Night Lamp 💡
Q2

Build Quarter

Weeks 11–20 • July – September

Wk 11–12Motors & Motion — DC, Servo, Stepper
Wk 13–14Line Follower Robot Build & Programme
Wk 15–16Python Intro — Variables, Loops, Functions
Wk 17–18Obstacle Avoidance with Ultrasonic Sensor
Wk 19–20Q2 Project — Autonomous Car 🚗
Q3

Intelligence Quarter

Weeks 21–30 • Oct – December

Wk 21–22AI Concepts — Machine Learning, Training Data
Wk 23–24IoT — Connect Arduino to Internet
Wk 25–263D Printing — Design & Print Robot Parts
Wk 27–28Voice & Vision AI Integration
Wk 29–30Q3 Project — Smart Home Model 🏠
Q4

Innovation Quarter

Weeks 31–40 • Jan – March

Wk 31–32Capstone Planning — Design Thinking Workshop
Wk 33–36Build Phase — Full Invention Development
Wk 37–38Testing & Refinement — Debug & Improve
Wk 39–40🏆 ANNUAL SHOWCASE — Present to School!

Play with Artificial Intelligence!

Interactive mini-demos to understand how AI thinks, learns and makes decisions

🎨 Teach AI Patterns

Draw a pattern by clicking cells. Press "Teach" to train the AI, then "Predict" to see if it recognises your pattern!

📦 AI Sorting Machine

Drag items to the correct bin! This simulates how AI classifiers work — sorting objects into categories based on features.

🍎 FRUIT
🚗 VEHICLE
🐶 ANIMAL
Correct: 0 | Wrong: 0

🔢 What Comes Next?

This is how AI recognises sequences! Can you figure out the number pattern? The AI will check your answer!

Frequently Asked Questions

What age group is this programme for?
Our programme is designed for students from Class 1 to Class 8 (approximately ages 6–14). Content is age-appropriate and gets progressively advanced — from block coding and simple circuits for younger kids, to Python, AI, and advanced robotics for older students.
Do students need any prior coding experience?
Absolutely not! We start from zero. Class 1–2 students begin with drawing robots and simple light circuits. Coding begins with visual block-based tools like Scratch, and text coding is introduced only from Class 4–5 onwards, at an age-appropriate pace.
How many classes happen per week?
We conduct 2 classes per week (typically 45–60 minutes each), along with quarterly project days and the Annual Innovation Showcase. This totals approximately 80–90 learning sessions per year.
What hardware/materials are used?
We use Arduino boards, sensor kits (temperature, ultrasonic, IR, soil, light sensors), servo and DC motors, robot chassis kits, 3D printers, and computers. All materials are provided in class. For simulation, we use TinkerCAD, Scratch, MIT App Inventor, and our own web-based tools.
Is this curriculum aligned with NCERT and IB?
Yes! Our curriculum is specifically mapped to NCERT Science, Mathematics, and Computer Science concepts. We also incorporate the IB inquiry-based learning framework. This ensures that what students learn in our classes reinforces and extends their school curriculum.
What is the Annual Showcase?
The Annual Innovation Showcase is a grand event at the end of the academic year where every student presents their capstone project. Parents, school staff, and community members attend. Students receive certificates, prizes, and recognition for their innovations. It's the most exciting event of the year!
Can teachers use this on a STEM classroom LED screen?
Yes! The website is fully responsive and optimised for large LED screens in STEM classrooms. Teachers can use the interactive simulators, code editor, robot controls, and AI demos in a group learning setting. The large text and colourful interface is designed to be visible from across a classroom.

Ready to Build the
Future? 🤖

Enrol your child in India's most fun and comprehensive AI & Robotics programme. Learning starts with play!