Advanced Robotics & AI Classes for Teens
We take curiosity to the next level. For students 11 and up, we dive deep into coding, Arduino, and machine learning to turn abstract concepts into working, real-world technology.
Watch as one of my 10-year-old students demonstrates an automatic door lock he built and programmed using AI-powered face detection. This is what I mean by turning curiosity into real-world capability.
My students are not just using AI, they are building it. Here, 10-year-olds are training real generative AI models to detect body poses and emotions using live camera input.
A look at our high-tech weekends. Students from 4 to 17 years old engage with advanced robotics, building everything from three-wheeled vehicles to complex conveyor systems using LEGO EV3.
At a workshop for polytechnic students in Bihar, this team explains the industrial robotic arm they built using Arduino Uno, servo motors, and jumper wires. They learned about its real-world applications in welding and painting.
My students learn to solve real-world problems. This team designed and built a working prototype of a solar-powered air purifier using an Arduino circuit and sensors to detect and improve air quality.
Saturday at my GK2 center is buzzing with creativity. Students are diving into hands-on learning, coding with Arduino, building robots, and bringing their advanced LEGO creations to life.
A student programs his LEGO EV3 robot, preparing it to navigate a course. These advanced kits allow for more complex programming and engineering, challenging older students to grow their skills.
During our AI and Computer Vision camp, students master face recognition. Here, they are using advanced coding techniques to map facial features, bringing complex tech skills to life.
About Advanced Robotics & AI (Ages 11+)
We don't just teach code, we train students to build. In our Advanced Robotics sessions, your teen is not just following a tutorial, they are training neural networks on their own laptop cameras or coding Arduino sensors to manage air quality in real-time. We focus on the engineering behind the logic, so they understand exactly why a sensor triggers or why a robot turns.
At 11 plus, curiosity doesn't stop, it just gets more complex. We move past pre-built blocks and dive into the mechanics and logic that run the modern world. In this cluster, students work with industry-standard tools like Arduino microcontrollers and LEGO Mindstorms EV3. We don't just show them how to assemble these kits, we show them how to write the code that makes them intelligent.
Whether it is programming a robot to navigate a complex obstacle course or training a machine learning model to recognize facial expressions via a webcam, the goal is practical application. Our students learn to handle errors, debug their own scripts, and refine their builds until they work perfectly.
This isn't theory. We take these skills and push them further in our competition prep sessions for the World Robot Olympiad and RoboCup Junior. For teens, this is often where a hobby becomes a serious interest in computer science, engineering, or AI development. We provide the hardware, the mentors, and the space to experiment, fail, and eventually, build something that works.
RoboClub
We've spent 14 years helping kids go from 'I wonder how this works' to building actual robots and training AI models. We're not about lectures or textbooks. We’re about the moment when your teen's code finally makes their robot move or their AI correctly identify a face.
Looking for a different STEM program?
Explore our other workshops or specific skill-based courses below.
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