Robotics and AI






Skill Level

18 Months




  • Comprehensive Curriculum: Our content provides a comprehensive and well-structured curriculum that covers fundamental concepts and progresses to advanced topics in both robotics and AI.
  • Hands-on Learning: The course emphasizes hands-on learning, allowing students to work with real hardware such as Arduino, Raspberry Pi, ESP32, and more. This practical approach enables them to apply theoretical knowledge in real-world projects.
  • Multifaceted Development Boards: We incorporate a variety of development boards, including Arduino, Raspberry Pi, and ESP32, providing students exposure to diverse platforms. This widens their skill set and prepares them for a range of applications in the robotics and AI field.
  • Incorporation of Industry-Relevant Tools: The course integrates industry-relevant tools like OpenCV for computer vision and TensorFlow for machine learning.
  • Project and Assignment-Based Learning: The inclusion of both hands-on projects and assignments encourages a well-rounded learning experience.
  • Diverse Learning Resources: The course provides a variety of learning resources, including online tutorials, documentation, and additional reading materials. This allows students to explore beyond the core curriculum and dive deeper into specific areas of interest.
  • Incorporation of Future Trends: By including modules on emerging trends in robotics and AI, students gain insights into the future of these fields. This forward-looking approach prepares them for the evolving landscape of technology.
  • Real-World Applications: The course emphasizes real-world applications, allowing students to see the practical implications of their learning. This connection to real-world scenarios enhances the relevance and applicability of the content.
  • Assessment and Evaluation: Regular assessments, quizzes, and a final project evaluation ensure that students not only learn the material but also can apply it.
Time Period: 6 months (1.5 hours per day)
Understanding Robotics Basics
  • Overview of robotics
  • Introduction to key concepts: actuators, sensors, microcontrollers
  • Brief history of robotics
Introduction to Arduino Platform
  • Overview of Arduino and its applications
  • Understanding the Arduino IDE
  • Basic programming concepts in Arduino
Basic Electronics
  • Electronic Components in Robotics
Introduction to Sensors and Actuators in Robotics
  • Types of sensors and actuators
Basic Programming with Arduino
  • Basic programming concepts
  • Introduction to libraries and their usage
  • Error handling and debugging
Introduction to AI & ML
  • Basics overview of AI & ML
  • Introduction to teachable machine by google
  • Real-world applications of AI and future trends
Future Trends and Applications in Robotics and AI
  • Emerging Trends in Robotics and AI
  • Real-world applications and Case study
Final Project
Time Span: 1 Year (1.5 hours per day)
Advanced Robotics Concepts
  • In-depth overview into robotics
  • Advanced Microcontrollers and Development Boards
  • Advanced Robotic Systems
Advanced Electronics and Sensor Integration
  • Advanced Electronics for Robotics
  • Sensor Fusion and Integration
Advanced Programming with Arduino, Raspberry Pi, and ESP32
  • Advanced Programming Concepts in Arduino
  • Working with Raspberry Pi and ESP32
Introduction to IoT
  • Introduction to IoT
  • Real-world applications of IoT and Future trends
Mid Project
Basic Computer Vision with OpenCV
  • Image Processing with OpenCV
  • Object Detection and Recognition
Advanced AI
  • Introduction to neural networks and deep learning
  • More AI & ML concepts 
Advanced AI Applications and Future Trends
  • Advanced AI Applications
  • Future Trends and Case Studies
  • Overview of LLM
Final Project

For Inquiries

+94 706 888 868

Available from 09:00 – 19:00

Address: 12,Wattarantenna Road, Kandy, Sri Lanka