ET4251 IOT for Smart Systems Syllabus:

ET4251 IOT for Smart Systems Syllabus โ€“ Anna University PG Syllabus Regulation 2021

COURSE OBJECTIVES:

1. To study about Internet of Things technologies and its role in real time applications.
2. To introduce the infrastructure required for IoT
3. To familiarize the accessories and communication techniques for IoT.
4. To provide insight about the embedded processor and sensors required for IoT
5. To familiarize the different platforms and Attributes for IoT

UNIT I INTRODUCTION TO INTERNET OF THINGS

Overview, Hardware and software requirements for IOT, Sensor and actuators, Technology drivers, Business drivers, Typical IoT applications, Trends and implications.

UNIT II IOT ARCHITECTURE

IoT reference model and architecture -Node Structure โ€“ Sensing, Processing, Communication, Powering, Networking โ€“ Topologies, Layer/Stack architecture, IoT standards, Cloud computing for IoT, Bluetooth, Bluetooth Low Energy beacons.

UNIT III PROTOCOLS AND WIRELESS TECHNOLOGIES FOR IOT PROTOCOLS:

NFC, SCADA and RFID, Zigbee MIPI, M-PHY, UniPro, SPMI, SPI, M-PCIe GSM, CDMA, LTE, GPRS, small cell.
Wireless technologies for IoT: WiFi (IEEE 802.11), Bluetooth/Bluetooth Smart, ZigBee/ZigBee Smart, UWB (IEEE 802.15.4), 6LoWPAN, Proprietary systems-Recent trends.

UNIT IV IOT PROCESSORS

Services/Attributes: Big-Data Analytics for IOT, Dependability, Interoperability, Security, Maintainability.
Embedded processors for IOT :Introduction to Python programming -Building IOT with RASPERRY PI and Arduino.

UNIT V CASE STUDIES

Industrial IoT, Home Automation, smart cities, Smart Grid, connected vehicles, electric vehicle charging, Environment, Agriculture, Productivity Applications, IOT Defense

COURSE OUTCOMES:

At the end of this course, the students will have the ability to
CO1: Analyze the concepts of IoT and its present developments.
CO2: Compare and contrast different platforms and infrastructures available for IoT
CO3: Explain different protocols and communication technologies used in IoT
CO4: Analyze the big data analytic and programming of IoT
CO5: Implement IoT solutions for smart applications

REFERENCES:

1. ArshdeepBahga and VijaiMadisetti : A Hands-on Approach โ€œInternet of Thingsโ€,Universities Press 2015.
2. Oliver Hersent , David Boswarthick and Omar Elloumi โ€œ The Internet of Thingsโ€, Wiley,2016.
3. Samuel Greengard, โ€œ The Internet of Thingsโ€, The MIT press, 2015.
4. Adrian McEwen and Hakim Cassimallyโ€œDesigning the Internet of Things โ€œWiley,2014.
5. Jean- Philippe Vasseur, Adam Dunkels, โ€œInterconnecting Smart Objects with IP: The Next Internetโ€ Morgan Kuffmann Publishers, 2010.
6. Adrian McEwen and Hakim Cassimally, โ€œDesigning the Internet of Thingsโ€, John Wiley and sons, 2014.
7. Lingyang Song/DusitNiyato/ Zhu Han/ Ekram Hossain,โ€ Wireless Device-to-Device Communications and Networks, CAMBRIDGE UNIVERSITY PRESS,2015.
8. OvidiuVermesan and Peter Friess (Editors), โ€œInternet of Things: Converging Technologies for Smart Environments and Integrated Ecosystemsโ€, River Publishers Series in Communication, 2013.
9. Vijay Madisetti , ArshdeepBahga, โ€œInternet of Things (A Hands on-Approach)โ€, 2014.
10. Zach Shelby, Carsten Bormann, โ€œ6LoWPAN: The Wireless Embedded Internetโ€, John Wiley and sons, 2009.
11. Lars T.Berger and Krzysztof Iniewski, โ€œSmart Grid applications, communications and securityโ€, Wiley, 2015.
12. JanakaEkanayake, KithsiriLiyanage, Jianzhong Wu, Akihiko Yokoyama and Nick Jenkins, โ€œ Smart Grid Technology and Applicationsโ€, Wiley, 2015.
13. UpenaDalal,โ€Wireless Communications & Networks,Oxford,2015.