TIEE3019 Smart System Automation Syllabus:
TIEE3019 Smart System Automation Syllabus – Anna University Regulation 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
Overview of a smart system – Hardware and software selection – Smart sensors and Actuators – Communication protocols used for smart systems.
UNIT II HOME AUTOMATION
Home Automation – System Architecture – Essential Components- Design Considerations: Control Unit, Sensing Requirements, Communication, Data Security.
UNIT III SMART APPLIANCES AND ENERGY MANAGEMENT
Significance of smart appliances for energy management -Smart Meters: Significance, Architecture & Energy Measurement Technique – Security Considerations.
UNIT IV SMART WEARABLE DEVICES
Body Area Networks – Sensors– communication protocol for Wearable devices- Application of Smart Wearable in Healthcare & Activity Monitoring.
UNIT V EMBEDDED SYSTEMS AND ROBOTICS
Fundamental concepts in Robotics- Robots and Controllers components – Embedded processor based: pick and place robot- Mobile Robot Design- UAV.
30 PERIODS
LAB COMPONENTS: 30 PERIODS
1. Laboratory exercise: Use Arduino/ R pi/ any other Embedded processors to give hands on training to understand concepts related to smart automation.
a) Hands on experiments based on Ubidots & Thing speak / Open-source Analytics Platform
b) Design and implementation of a smart home system .
c) Bluetooth Based Home Automation Project using Android Phone
d) GSM Based Home Devices Control
e) Pick and place robots using Arduino/ any suitable Embedded processor
2. Assignment: Revolution of Smart Automation system across the world and its current scope available in India
3. Mini project: Design of a Smart Automation system ( for any application of students choice)
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.
TEXTBOOKS:
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.