TIEE3019 Syllabus - Smart System Automation - 2022 Regulation Anna University

TIEE3019 Syllabus - Smart System Automation - 2022 Regulation Anna University

TIEE3019	SMART SYSTEM AUTOMATION	L T P C

2023

COURSE OBJECTIVES:

• To introduce the smart system technologies and its role in real time applications
• To teach the architecture and requirements of Home Automation.
• To provide an insight into smart appliances and energy management concepts.
• To familiarize the design and needs of smart wearable devices
• To teach the basics of robotics and its role for automation.

UNIT I	INTRODUCTION	6

Overview of a smart system - Hardware and software selection - Smart sensors and Actuators – Communication protocols used for smart systems.

UNIT II	HOME AUTOMATION	6

Home Automation – System Architecture - Essential Components- Design Considerations: Control Unit, Sensing Requirements, Communication, Data Security.

UNIT III	SMART APPLIANCES AND ENERGY MANAGEMENT	6

Significance of smart appliances for energy management -Smart Meters: Significance, Architecture & Energy Measurement Technique – Security Considerations.

UNIT IV	SMART WEARABLE DEVICES	6

Body Area Networks - Sensors– communication protocol for Wearable devices- Application of Smart Wearable in Healthcare & Activity Monitoring.

UNIT V	EMBEDDED SYSTEMS AND ROBOTICS	6

Fundamental concepts in Robotics- Robots and Controllers components - Embedded processor based: pick and place robot- Mobile Robot Design- UAV.

TOTAL: 30+30 = 60 PERIODS

COURSE OUTCOMES: At the end of this course, the students will have the ability to

CO1: Understand the concepts of smart system design and its present developments.
CO2: Illustrate different embedded open-source and COst-effective techniques for developing solution for real time applications.
CO3: Acquire knowledge on different platforms and Infrastructure for Smart system design.
CO4: Infer about smart appliances and energy management concepts.
CO5: Improve Employability and entrepreneurship capacity due to knowledge upgradation on embedded system technologies.

TEXT BOOKS:

1. Grimm, Christoph, Neumann, Peter, Mahlknech and Stefan, Embedded Systems for Smart Appliances and Energy Management, Springer 2013, 1st Edition.
2. KazemSohraby, Daniel Minoli and TaiebZnati, Wireless Sensor Networks Technology, Protocols, and Applications, John Wiley & Sons, 2007, 1st Edition.
3. NilanjanDey, Amartya Mukherjee, Embedded Systems and Robotics with Open-Source Tools, CRC press, 2016, 1st Edition.

REFERENCES:

1. Thomas Bräunl, Embedded Robotics, Springer, 2003.
2. Raj Kamal, Embedded Systems - Architecture, Programming and Design, McGraw- Hill, 2008
3. Karim Yaghmour, Embedded Android, O'Reilly, 2013.
4. Steven Goodwin, Smart Home Automation with Linux and Raspberry Pi, Apress , 2013
5. C.K. Toh, AdHoc mobile wireless networks, Prentice Hall, Inc, 2002.
6. Anna Ha´c, Wireless Sensor Network Designs, John Wiley & Sons Ltd, 2003.
7. J. J. Craig, “Introduction to Robotics Mechanics and Control”, Pearson Education.
8. Y. Koren, “Robotics for Engineers”, McGraw-Hill.
9. Robert Faludi, Wireless Sensor Networks, O’Reilly, 2011.