Unit 1

Genesis of IoT -IoT and Digitization – IoT Impact – Convergence of IT and IoT – IoT Challenges -IoT Network Architecture and Design – Drivers Behind New Network Architectures – Comparing IoT Architectures – A Simplified IoT Architecture -The Core IoT Functional Stack -IoT Data Management and Compute Stack.

Unit 2

PSmart Objects – The “Things” in IoT – Sensors –Actuators – and Smart Objects – Sensor Networks – Connecting Smart Objects – Communications Criteria -IoT Access Technologies -IP as the IoT Network Layer – The Business Case for IP – The need for Optimization -Optimizing IP for IoT – Profiles and Compliances.

Unit 3

Application Protocols for IoT – The Transport Layer -IoT Application Transport Methods – Data and Analytics for IoT – An Introduction to Data Analytics for IoT – Machine Learning, Big Data Analytics Tools and Technology -Edge Streaming Analytics, Network Analytics.

Unit 4

RaspberryPi Board – Hardware Layout – Operating Systems on RaspberryPi – Configuring RaspberryPi – Programming RaspberryPi with Python – Wireless Temperature Monitoring System Using Pi – DS18B20 Temperature Sensor -Connecting Raspberry Pi via SSH – Accessing Temperature from DS18B20 sensors – Remote access to RaspberryPi – Smart and Connected Cities – An IoT Strategy for Smarter Cities – Smart City IoT Architecture – Smart City Security Architecture – Smart City Use-Case Examples.

• David Hanes, Gonzalo Salgueiro, Patrick Grossetete, Robert Barton, Jerome Henry,”IoT Fundamentals: Networking Technologies, Protocols, and Use Cases for the Internet of Things”, First Edition, Cisco Press, 2017.
• Adrian Mcewen, HakinCassimally, “Designing The Internet of Things”, First Edition, Wiley, 2014.

• Raj Kamal, “Internet of Things: Architecture and Design Principles”,First Edition, McGraw Hill Education, 2017.
• Peter Waher, “Mastering Internet of Things: Design and create your own IoT applications using Raspberry Pi 3”, First Edition, Packt Publishing, 2018.

Evaluation Pattern

Objectives

• To introduce different architectures used for connected smart devices
• To study various protocols used in the Internet of Things environment
• To Design and Develop Internet of Things based solution for real world problems

Course Outcomes

• CO1: Able to understand the basic architecture of Internet of Things based Devices
• CO2: Able to analyze light weight protocols implemented for connected devices
• CO3: Able to develop firmware for controlling wireless devices
• CO4: Able to design and develop Smart Devices using IoT

CO – PO Mapping