NE4001 Iot Architecture and Protocols Syllabus:

NE4001 Iot Architecture and Protocols Syllabus – Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES:

 To learn about the basics of IoT
 To study the architecture of IoT with its reference model
 To discuss the various IoT network layer protocols.
 To identify the various IoT application layer protocols with its features
 To develop various IoT-based real time applications.

UNIT I BASICS OF IoT

Introduction to IoT – Physical Design- Logical Design- IoT Enabling Technologies – IoT Levels & Deployment Templates- Domain Specific IoTs – IoT and M2M – Applications of IoT, Use cases of IoT

UNIT II IoT ARCHITECTURE

The IoT Architectural Reference Model as Enabler – M2M high-level ETSI architecture – IoT in Practice: IoT in Logistics and Health – IoT Reference Model: Domain, information, functional and communication models – SOA based Architecture – API-based Architecture – OPEN IoT Architecture for IoT/Cloud Convergence

UNIT III IoT NETWORK LAYER PROTOCOL

Introduction – RPL – CORPL – CARP – 6LoWPAN: Properties-Security measure-Comparative analysis- Security challenges

UNIT IV IOT APPLICATION LAYER PROTOCOLS

Protocol Standardization for IoT – Constrained Application Protocol(CoAP)- Message Queue Telemetry Transport(MQTT) – Extensible Message and Presence Protocol(XMPP)- Advanced Message Queuing Protocol(AMQP) – Representational State Transfer(REST) – Comparative Analysis

UNIT V APPLICATIONS AND CASE STUDY

Real world design constraints – Applications: Asset management, Industrial automation, smart grid, Commercial building automation, Smart cities – Case study : Cloud-Based Smart-Facilities Management, Healthcare, Environment Monitoring System.

COURSE OUTCOMES:

CO1: Comprehend the essentials of IoT and its applications
CO2: Understand the concepts of IoT Architecture Reference model and IoT reference architecture
CO3: Use of IoT network layer protocols with security challenges.
CO4: Analyze various IoT Application layer Protocols
CO5: Design IoT-based systems for real-world problems

TOTAL: 45 PERIODS

REFERENCES

1. Bassi, Alessandro, et al, “Enabling things to talk”, Springer-Verlag Berlin An, 2016.
2. David Hanes, Gonzalo Salgueiro, Patrick Grossetete, Robert Barton, Jerome Henry, “IoT Fundamentals: Networking Technologies, Protocols, and Use Cases for the Internet of Things”, CISCO Press, 2017
3. Hersent, Olivier, David Boswarthick, and Omar Elloumi. The internet of things: Key applications and protocols. John Wiley & Sons, 2011.
4. Buyya, Rajkumar, and Amir Vahid Dastjerdi, eds. Internet of Things: Principles and paradigms. Elsevier, 2016.

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