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Fundamental IoT

irna Thu, 11/24/2022 - 04:05
IoT1

Duration

2 Days

Exam Details

  • Exam Code: A passing grade on Exam IoT90.01 is required to is required to achieve the IoT Architect Certification.
  • Duration: 110 minutes

Price

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This course covers the essentials of the field of Internet of Things (IoT) from both business and technical aspects. Fundamental IoT use cases, concepts, models and technologies are covered in plain English, along with introductory coverage of IoT architecture and IoT messaging with REST, HTTP and CoAp.

Key Outcomes:
Students will be able to know:

  • Connectivity, Data, Processing, Commands and Business Analytics
  • IoT Business and Technology Drivers, Benefits and Challenges, Connectivity and Contextual Realtime Data, Business Domains (Personal, Home, Enterprise, Utilities, Mobile), Gateways and Common Gateway Functions, Platforms and Common Platform Functions, Architecture Layers and Action Modeling, Messaging with REST, HTTP and the Constrained Application Protocol (CoAp)
  • IoT Publish-and-Subscribe and MQ Telemetry Transport (MQTT)
  • Non-Binary Data Serialization for IoT with JSONs

Objectives

  • Understanding Things, Connectivity, Data, Processing, Commands and Business Analytics
  • IoT Business and Technology Drivers, Benefits and Challenges
  • Miniaturization and Nanotechnology
  • IoT Connectivity and Contextual Realtime Data
  • IoT Business Domains (Personal, Home, Enterprise, Utilities, Mobile)
  • IoT vs. the Internet
  • Resource-Constrained Devices and Low-Power Wide-Area Networks (LPWANs)
  • Active and Passive Devices (including RFID)
  • Telemetry and Command Data
  • Sensors (Mechanical, Resistive, Optical, Ranging, MEMS)
  • Microcontrollers, Firmware and Power Sources
  • IoT Gateways and Common Gateway Functions
  • Introduction to Edge and Fog Computing
  • IoT Platforms and Common Platform Functions
  • IoT Architecture Layers and Action Modeling
  • Key IoT Architecture Design Considerations
  • Radio Transports (Leased vs. Unleased, High Band vs. Low Band)
  • IoT Messaging with REST, HTTP and the Constrained Application Protocol (CoAp)
  • REST Properties and Constrains with IoT and CoAp
  • HTTP Resource Identifiers, Media Types and Method with IoT and CoAps
  • IoT Publish-and-Subscribe and MQ Telemetry Transport (MQTT)
  • Non-Binary Data Serialization for IoT with JSONs
  • Binary Data Serialization for IoT with Protocol Buffers

Contact

  • Nurman (+62 857-2375-3840)
  • Irna (+62 822-1664-7749)
  • Puji (+62 813-2424-2115)