Overview
Total
Duration: 2 Weeks
This advanced course builds upon the Fundamental Course, introducing more complex projects and applications. In addition to the basic modules, students will work on a smart parking system, an obstacle-avoiding car, and a final project to apply their knowledge. This course is ideal for those who want a deeper understanding of robotics and IoT automation.
Best for: Beginners & intermediate learners looking for advanced projects
Duration: 8 days (1.5 hours per session)
Fee: Nrs 7,200
Course Content
- Overview of robotics and real-world applications
- Understanding key components (Arduino, sensors, motors, actuators)
- Hands-on: Simple LED Blink (Arduino Basics)
- Introduction to basic programming: Variables, loops, and functions
- Q&A and wrap-up
- Introduction to alcohol sensors and their safety applications
- Hands-on: Build an alcohol detection system with buzzer alarm
- Explanation of sensor functionality and logic
- Experimenting with different liquids and triggering alerts
- Q&A and wrap-up
- Introduction to temperature and humidity sensors (DHT11)
- Hands-on: Measure room temperature and humidity, display on an LCD
- Discussion on IoT and remote data transmission
- Team challenge: Predict temperature before measuring it
- Q&A and wrap-up
- Introduction to sensors (Ultrasonic sensor) and actuators (Servo motor)
- Hands-on: Build a Smart Dustbin (Automatic lid opening when a hand is near)
- Explanation of sensor reading and servo motor control
- Group activity: Competition on speed and responsiveness
- Q&A and wrap-up
- Understanding soil moisture sensors and their role in automation
- Hands-on: Build an automated plant watering system
- Real-world applications in smart homes and agriculture
- Q&A and wrap-up
- Introduction to IR sensors for vehicle detection
- Hands-on: Build a simple smart parking system
- Discussion on IoT applications in smart parking and urban planning
- Group activity: Teams design their own smart parking system ideas
- Q&A and wrap-up
- Introduction to motor drivers and DC motors
- Hands-on: Build a Smart Car with obstacle avoidance using ultrasonic sensors
- Explanation of motor control and sensor feedback loops
- Group competition: Optimizing speed and accuracy of obstacle detection
- Q&A and wrap-up
- Students select and refine their favorite projects
- Mini hackathon-style challenge: Integrate multiple sensors into one project
- Student project presentations
Course Features
- Duration2 Weeks
- Resources LMS, Online Classes
- Assesments Weekly
- Offline Content Yes
- Language English / Local
- Skill level All levels
- Per Class 10
- Certificate Yes
