Course Duration

  • 45 Hrs

IoT Course Fee

11, 799 Rs. 

Eligibility

Open to all Learners 

Course Duration

  • 90 Hrs

CCC Course Fee

  • 3600 Rs. 

Eligibility

All Learners 

IoT Foundation Course SFI201
(NASSCOM Certified)

Build a strong foundation in digital literacy with 90 hours of hands-on training covering essential computer skills, internet usage, and cybersecurity awareness.

IoT Foundation Course SFI201
(NASSCOM Certified)

Build a strong foundation in digital literacy with 90 hours of hands-on training covering essential computer skills, internet usage, and cybersecurity awareness.

Course Modules

  • Course duration: 45 Hrs

Course Modules

  • Course duration: 45 Hrs

Module 1: Introduction to IoT (Theory)

  • Understand the fundamentals of the Internet of Things (IoT) and its components.
  • Explore current IoT trends, real-world applications, and emerging use cases across industries.
  • Learn about the IoT technology stack, communication layers, and data management processes.

Module 2: Introduction to Operating System

  • Explore embedded systems and their role in real and digital life.
  • Learn about the key components of IoT devices, including sensors, actuators, and microcontrollers.
  • Understand fundamentals of sensor and actuator interfacing with microcontrollers.
  • Gain practical skills in programming microcontrollers for IoT applications.
  • Study IoT-based smart energy management systems and legal compliance considerations.
  • Practical Activity: Write and execute your first IoT program on a microcontroller or simulator.

Module 3: IoT Networking and Communications (Theory)

  • Understand the fundamentals of IoT networking and communications.
  • Learn about different IoT deployment models and their applications.
  • Explore wired and wireless connectivity protocols used in IoT systems.
  • Study the key characteristics and performance aspects of various connectivity protocols.

Module 4: IoT Data Storage and Analysis (Theory + Practical Activity)

  • Understand the role of cloud computing in IoT.
  • Learn IoT data management and analytics techniques.
  • Explore the use of Python for IoT data processing.
  • Gain hands-on experience performing data storage, management, and log analysis on a simulated.
  • IoT platform using cloud services.
  • Analyse IoT data using tools such as Excel, Python, or R.

Module 5: IoT Security and Privacy (Theory + Practical Activity)

  • Learn core IoT security principles and the IoT security framework.
  • Understand privacy risks and measures to protect IoT data.
  • Explore penetration testing and review OWASP Top 10 security considerations./li>
  • Practical activity: Apply security framework guidelines covering device security, communication.
  • encryption, and data access safeguards to ensure privacy and protection across the IoT stack.

Project Work (Practical Assignment)

Students will complete a small project using the skills learned in the course.

  • Apply the concepts learned across IoT fundamentals, data analytics, cloud integration, and security.
  • Design and implement a complete IoT solution, including data collection, storage, analysis, and secure communication.
  • Integrate Python or other tools for data processing and visualization.
  • Ensure the project follows IoT security and privacy best practices, including device security, data encryption, and access control.
  • Present a fully functional prototype demonstrating end-to-end IoT system implementation.

Course Details & Enrollment

Know More About the Course

Click Here to View Course Details

Module 1: Introduction to IoT (Theory)

  • Understand the fundamentals of the Internet of Things (IoT) and its components.
  • Explore current IoT trends, real-world applications, and emerging use cases across industries.
  • Learn about the IoT technology stack, communication layers, and data management processes.

Module 2: Introduction to Operating System

  • Explore embedded systems and their role in real and digital life.
  • Learn about the key components of IoT devices, including sensors, actuators, and microcontrollers.
  • Understand fundamentals of sensor and actuator interfacing with microcontrollers.
  • Gain practical skills in programming microcontrollers for IoT applications.
  • Study IoT-based smart energy management systems and legal compliance considerations.
  • Practical Activity: Write and execute your first IoT program on a microcontroller or simulator.

Module 3: IoT Networking & Communications (Theory)

  • Understand the fundamentals of IoT networking and communications.
  • Learn about different IoT deployment models and their applications.
  • Explore wired and wireless connectivity protocols used in IoT systems.
  • Study the key characteristics and performance aspects of various connectivity protocols.

Module 4: IoT Data Storage and Analysis (Theory + Practical Activity)

  • Understand the role of cloud computing in IoT.
  • Learn IoT data management and analytics techniques.
  • Explore the use of Python for IoT data processing.
  • Gain hands-on experience performing data storage, management, and log analysis on a simulated.
  • IoT platform using cloud services.
  • Analyse IoT data using tools such as Excel, Python, or R.

Module 5: IoT Security & Privacy (Theory + Practical Activity)

  • Learn core IoT security principles and the IoT security framework.
  • Understand privacy risks and measures to protect IoT data.
  • Explore penetration testing and review OWASP Top 10 security considerations./li>
  • Practical activity: Apply security framework guidelines covering device security, communication.
  • encryption, and data access safeguards to ensure privacy and protection across the IoT stack.

Project Work (Practical Assignment)

Students will complete a small project using the skills learned in the course.

  • Apply the concepts learned across IoT fundamentals, data analytics, cloud integration, and security.
  • Design and implement a complete IoT solution, including data collection, storage, analysis, and secure communication.
  • Integrate Python or other tools for data processing and visualization.
  • Ensure the project follows IoT security and privacy best practices, including device security, data encryption, and access control.
  • Present a fully functional prototype demonstrating end-to-end IoT system implementation.

Course Details & Enrollment

Know More About the Course

Click Here to View Course Details

Assessment & Certification

Assessments

Participants will be evaluated through practical exercises, assignments, and module-based tests to ensure a clear understanding of computer concepts and digital skills.

Certification

Participants receive a NASSCOM-recognized Certificate of Completion for the IoT Foundation Course. Top achievers are honored with a Certificate of Excellence, endorsed by NASSCOM, showcasing their proficiency in IoT concepts, device connectivity, and practical implementation of smart technologies.

Assessment & Certification

Assessments

Participants will be evaluated through practical exercises, assignments, and module-based tests to ensure a clear understanding of computer concepts and digital skills.

Certification

Participants receive a NASSCOM-recognized Certificate of Completion for the IoT Foundation Course, validating their skills in IoT concepts, device connectivity, and practical implementation of smart technologies.