• IoT Architecture and Protocols: Understand the architecture of IoT systems, including communication protocols and data flow.

 

  • Sensor Integration: Learn to integrate various sensors and actuators into IoT systems. Explore the use of wireless communication technologies.

 

  • Data Processing and Analytics: Implement data processing techniques to analyze IoT data. Use cloud platforms to store, process, and visualize data from IoT devices.

By attending these workshops, students will develop a strong foundation in electronics engineering, enabling them to design, implement, and troubleshoot complex electronic systems.

Key Features

  • Hands-On Learning: Engage in practical, hands-on exercises that reinforce theoretical concepts and enhance problem-solving skills.
  • Industry-Relevant Skills: Acquire skills directly applicable to the power electronics and drives industry, enhancing employability and readiness for real-world challenges.
  • Expert Guidance: Learn from industry experts and experienced faculty who provide personalized guidance and support throughout the workshop.
  • Advanced Simulation Techniques: Gain proficiency in using Matlab/Simulink for advanced simulations, including non-linear modeling and analysis of power electronic circuits and motor drives.
  • Project-Based Learning: Apply theoretical knowledge to real-world projects, fostering a deep understanding of power electronics and drives and their applications.