JORD
AI & Robotics Mastery
Age Group: 12–18 Years
Session Duration: 90 minutes
Group Size: 12–20 students
Total Sessions: 10 Weekly Sessions
Program Objectives
The AI Robotics Mastery Program offers teenagers a structured yet exciting pathway into the future of technology. Over 10 powerful sessions, participants will explore electronics, Arduino programming, Python fundamentals, and AI-driven computer vision all while building a complete, intelligent AI Robo Car capable of seeing and reacting to its environment using real-time camera input.
This is not just a coding class it’s a launchpad for tomorrow’s engineers, programmers, and innovators
Program Agenda
|
# |
Session Title |
Learning Focus & Outcome |
Tools & Platforms |
Sub Projects |
Duration |
|
1 |
Electro Launch: Powering Up Your Tech Journey |
Learn core electronics concepts: current, polarity, and circuit components. Build light/buzzer-based circuits. |
Breadboards, resistors, sensors, buzzers, fans |
|
45 m |
|
2 |
Sensor-Driven Systems: Build a Smart Cooling Unit |
Use temperature sensors to create a smart cooling system that activates LEDs, fans, and alarms. |
thermistors, fan module, buzzer, LEDs |
|
45 m |
|
3 |
CodeFlow: Your First Steps into GPIO Programming |
Introduction to controlling hardware via Raspberry Pi’s GPIO using Python. |
Raspberry Pi, Python (Thonny), basic hardware |
|
45 m |
|
4 |
Logic in Action: Design a Reactive Smart Alarm |
Apply coding logic to create a multi-component alarm system with sensors, LEDs, and buzzers. |
PIR or LDR sensors, buzzer, LEDs |
|
45 m |
|
5 |
Python Ignite: Start Speaking the Language of Machines |
Intro to Python: syntax, logic, variables, loops, and communication with hardware via serial. |
Python (Thonny/VS Code), Raspberry Pi, USB |
|
45 m |
|
6 |
Data in Motion: Build a Live Sensor Monitoring System |
Create a Python program to monitor, read, and log temperature data from sensors in real-time. |
Raspberry Pi, Python, serial monitor, live graphs |
|
45 m |
|
7 |
Build the Beast: Engineering the AI Robo Car Frame |
Assemble the AI Robo Car hardware: chassis, motors, wheels, wiring layout, camera mount. |
Smart car chassis kit, motor drivers, camera holder |
|
45 m |
|
8 |
Brain Meets Machine: Program the Robo Car's Intelligence |
Code car movement, LED signals, buzzer alerts, and sensor-based responses using Arduino logic. |
Raspberry Pi sensors, motors, logic testing |
|
45 m |
|
9 |
Machine Vision: Train Your Car to Detect & Respond |
Integrate a camera and use computer vision (OpenCV or Teachable Machine) to detect obstacles and react. |
WEB-CAM / Raspberry Pi, OpenCV or Teachable Machine |
|
45 m |
|
10 |
Future Unveiled: Showcase Your AI Robo Car to the World |
Final testing, refinement, and a tech fair where students present their AI-powered smart vehicles. |
All tools + showcase setup + certificates (optional) |
|
45 m |
What Will Your Teen Gain?
Through the AI Robotics Mastery Program, your teen will gain far more than just technical know-how they'll develop a future-ready mindset, critical problem-solving abilities, and the confidence to lead in the age of intelligent machines.
Engineering Mindset & Hands-On Innovation Students will understand how electronic systems function, build real circuits, and integrate hardware with software to bring physical inventions to life building a foundation for careers in robotics, engineering, and technology.
Professional-Grade Python Skills From simple logic to real-time control and data visualization, students will learn Python the way professionals use it enabling them to write clean, effective code that drives real hardware.
AI & Machine Vision Fluency By implementing camera-based obstacle detection and object recognition using OpenCV on Raspberry Pi, students will explore how modern AI systems perceive and interact with the world a cornerstone of future technologies like self-driving cars and smart robotics.
Project-Based Learning That Sparks Mastery The entire program is centred around building a real AI Robo Car not just theoretical lessons. Every session contributes to the design, wiring, coding, and training of a fully functional, intelligent vehicle.
Confidence, Communication & Teamwork In the final showcase, students present their working innovations to peers, teachers, and parents practicing public speaking, teamwork, and the art of explaining complex ideas clearly and confidently.
By the end of the program, your teen won’t just understand how technology works they’ll know how to create it.
They’ll Walk away with a complete portfolio-worthy project and the skills to dive deeper into coding, robotics, and artificial intelligence