Topic outline

  • Objectives

    • Explore IoT connectivity and communication technologies.
    • Develop expertise in IoT data analytics and visualization.
    • Understand the integration of hardware and software.
    • Learn to design and implement IoT solutions.
    • Gain insights into IoT deployment and scalability.
    • Become adept at addressing IoT privacy and ethical concerns.
    • Stand out as a trusted IoT professional in the industry.
    • Contribute to the advancement of IoT technologies globally.

  • Syllabus

    1. IOT Introduction & Concepts:

    • Introduction: Internet, Things and IoT
    • IoT Types, History and Evolution of IoT
    • IoE, M2M, and Cyber-Physical Systems classifications
    • IoT Facts and Figures Around IoT Application Areas
    2. Basic Building Block of IoT - Architecture:
    • IOT Drivers
    • Benefits for Business
    • IoT Business: Opportunities, Benefits, and Challenges
    • IoT Monetization Strategies and Models
    3.Big Data - Privacy & Ethics:
    • Architecture of IoT components
    • Network Components Within IoT
    • Explain the basic building blocks of IoT including
    • Sensors, processors, gateways, and applications.
    • Sensors and actuators.
    • Relate to generic factor of sensors.
    • Architectural layers of IoT.
    • Working of IoT.

    4.Enabling Technologies of IoT:

    • Social Media and Mobility in IoT
    • Big Data and Analytics in IoT
    • Cloud Computing in IoT
    5. IoT Security and Top Governance Issues:
    • IoT Security Challenges
    • Causes of IoT Security Breaches
    • IoT Security Risks

    • Benefits

      • Demonstrates IoT expertise to employers
      •  Opens doors to lucrative IoT roles.
      •  Stand out from other job applicants
      •  Boost career advancement opportunities
      •  Authenticate skills in IoT technology
      •  Increases earning potential in the IoT field
      •  Enables contribution to IoT innovation