This advanced program takes students from foundational robotics to real IoT innovation. They begin with controllers, materials, and motor-based systems, then progress toward programming with Arduino, using sensors for recognition, and applying actuators for real movement. In the IoT phase, learners explore ESP32, collect sensor data, display it on LCDs, and connect their hardware to cloud platforms like ThingSpeak or Blynk. By blending robotics and the Internet of Things, students build smart machines capable of sensing, acting, and communicating in real-time — culminating in a complete IoT-enabled project with live demonstrations. The course blends practical experimentation and project-based learning, empowering learners to design, code, and deploy smart systems like line follower robots, smart homes, weather stations.
What you'll get with this course
The course blends practical experimentation and project-based learning, empowering learners to design, code, and deploy smart systems like line follower robots, smart homes, weather stations.
Complete Robotics & IoT Kit
Expert-Led Classe
Hands-On Projects
Real-Time IoT Connectivity
Deliverig skills that matter
Students will master how to integrate hardware, code, and IoT systems. They’ll understand how modern automation works — from robotic motion control to cloud-based monitoring and data analytics.
Basic Robotics Car
Distance Detection Robot (Ultrasonic)
Servo-Controlled Mechanism
Tools technologies You’ll Learn
A combination of robotics hardware, IoT microcontrollers, cloud platforms, and coding tools to create powerful real-world tech systems
15
You’ll Learn Tools
- Arduino UNO & ESP32 Microcontrollers
- C++ & Arduino IDE
- IoT Platforms: ThingSpeak, Blynk, Adafruit IO
- Sensors: Ultrasonic, PIR, IR, DHT11
Frequently asked question
Ideal for students of Grades 9–12 students who have completed Electronics & Robotics course or have basic electronics knowledge.
A basic understanding of Arduino or electronics helps, but not mandatory.We revisit essential concepts before moving to advanced robotics and IoT.
40 hours of structured learning with both classroom and project sessions.
Yes. Students use ESP32 with Arduino IDE to send data online and control hardware through cloud platforms.
Sensors, motors, ESP32, Arduino UNO, LCD display, jumper wires, chassis materials, and all components needed for every activity.