OCS352 IOT Concepts and Applications Syllabus:
OCS352 IOT Concepts and Applications Syllabus – Anna University Regulation 2021
COURSE OBJECTIVES:
To apprise students with basic knowledge of IoT that paves a platform to understand physical and logical design of IOT
To teach a student how to analyse requirements of various communication models and protocols for cost-effective design of IoT applications on different IoT platforms.
To introduce the technologies behind Internet of Things(IoT).
To explain the students how to code for an IoT application using Arduino/Raspberry Pi open platform.
To apply the concept of Internet of Things in real world scenario.
UNIT I INTRODUCTION TO INTERNET OF THINGS
Evolution of Internet of Things – Enabling Technologies – IoT Architectures: oneM2M, IoT World Forum (IoTWF) and Alternative IoT Models – Simplified IoT Architecture and Core IoT Functional Stack – Fog, Edge and Cloud in IoT
UNIT II COMPONENTS IN INTERNET OF THINGS
Functional Blocks of an IoT Ecosystem – Sensors, Actuators, and Smart Objects – Control Units – Communication modules (Bluetooth, Zigbee,Wifi, GPS, GSM Modules)
UNIT III PROTOCOLS AND TECHNOLOGIES BEHIND IOT
IOT Protocols – IPv6, 6LoWPAN, MQTT, CoAP – RFID, Wireless Sensor Networks, BigData Analytics, Cloud Computing, Embedded Systems.
UNIT IV OPEN PLATFORMS AND PROGRAMMING
IOT deployment for Raspberry Pi /Arduino platform-Architecture –Programming – Interfacing – Accessing GPIO Pins – Sending and Receiving Signals Using GPIO Pins – Connecting to the Cloud.
UNIT V IOT APPLICATIONS
Business models for the internet of things, Smart city, Smart mobility and transport, Industrial IoT, Smart health, Environment monitoring and surveillance – Home Automation – Smart Agriculture
30 PERIODS
PRACTICAL EXERCISES: 30 PERIODS
1. Introduction to Arduino platform and programming
2. Interfacing Arduino to Zigbee module
3. Interfacing Arduino to GSM module
4. Interfacing Arduino to Bluetooth Module
5 Introduction to Raspberry PI platform and python programming
6. Interfacing sensors to Raspberry PI
7. Communicate between Arduino and Raspberry PI using any wireless medium
8. Setup a cloud platform to log the data
9. Log Data using Raspberry PI and upload to the cloud platform
10.Design an IOT based system
TOTAL PERIODS:60
COURSE OUTCOMES:
CO1:Explain the concept of IoT.
CO2:Understand the communication models and various protocols for IoT.
CO3:Design portable IoT using Arduino/Raspberry Pi /open platform
CO4:Apply data analytics and use cloud offerings related to IoT.
CO5:Analyze applications of IoT in real time scenario.
TEXTBOOKS
1. Robert Barton, Patrick Grossetete, David Hanes, Jerome Henry, Gonzalo Salgueiro, “IoT Fundamentals: Networking Technologies, Protocols, and Use Cases for the Internet of Things”, CISCO Press, 2017
2. Samuel Greengard, The Internet of Things, The MIT Press, 2015
REFERENCES
1. Perry Lea, “Internet of things for architects”, Packt, 2018
2. Olivier Hersent, David Boswarthick, Omar Elloumi , “The Internet of Things – Key applications and Protocols”, Wiley, 2012
3. IOT (Internet of Things) Programming: A Simple and Fast Way of Learning, IOT Kindle Edition.
4. Dieter Uckelmann, Mark Harrison, Michahelles, Florian (Eds), “Architecting the Internet of Things”, Springer, 2011.
5. ArshdeepBahga, Vijay Madisetti, “Internet of Things – A hands-on approach”, Universities Press, 2015
6. https://www.arduino.cc/
https://www.ibm.com/smarterplanet/us/en/?ca=v_smarterplanet