CEC367: Industrial IoT and Industry 4.0 syllabus for ETE 2021 regulation (Professional Elective-VI)

Industrial IoT and Industry 4.0 detailed syllabus for Electronics & Telecommunication Engineering (ETE) for 2021 regulation curriculum has been taken from the Anna Universities official website and presented for the ETE students. For course code, course name, number of credits for a course and other scheme related information, do visit full semester subjects post given below.

For Electronics & Telecommunication Engineering 6th Sem scheme and its subjects, do visit ETE 6th Sem 2021 regulation scheme. For Professional Elective-VI scheme and its subjects refer to ETE Professional Elective-VI syllabus scheme. The detailed syllabus of industrial iot and industry 4.0 is as follows.

Course Objectives:

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Unit I

UNDERSTANDING IOT CONCEPT AND DEVELOPMENT PLATFORM
IOT Definition, Importance of IoT, Applications of IOT, IoT architecture, Understanding working of Sensors, Actuators, Sensor calibration, Study of Different sensors and their characteristics

Unit II

ANALYZING & DECODING OF COMMUNICATION PROTOCOL USED IN IOT DEVELOPMENT PLATFORM
UART Communication Protocol, I2C Protocol device interfacing and decoding of signal, SPI Protocol device interfacing and decoding of signal, WIFI and Router interfacing, Ethernet Configuration, Bluetooth study and analysis of data flow, Zigbee Interfacing and study of signal flow

Unit III

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Unit IV

CLOUD SERVICES USED IN IOT DEVELOPMENT PLATFORM
Configuration of the cloud platform, Sending data from the IOT nodes to the gateways using different communication options; Transferring data from gateway to the cloud; Exploring the web services like mail, Messaging (SMS) and Twitter etc.;Tracking of cloud data as per the requirement; Google Cloud service architect; AWS clod Services architect; Microsoft Azure cloud services Architect; OEN source Cloud Services; Initial State Iot Dashboard & Cloud Services

Unit V

CHALLENGES IN IOT SYSTEM DESIGN – HARDWARE & SOFTWARE
Antenna design and placement, Chip-package system development, Power electronics, electromagnetic interference/compatibility (EMI/EMC), Electronics reliability; Battery simulation.

Practical Exercises

1. Study and Program different Sensors for IoT applications
• LDR sensor, IR sensor, Temperature Sensor, Ultrasound Sensor, Gas sensor
• Write a program using IR sensor for working morning alarm and night lamp
• Write a program using Temperature sensor for detecting heat / fire
• Write a program using Gas sensor for detecting LPG gas leak
• Write a program using Ultrasound sensor for range detection
• Write a program using sensors for carparking assist
• Write a program using sensors for water level indicator and overflow detection
2. Designing and debugging complex mixed signal devices (analog, digital, and RF)
• Write a program to interface Bluetooth and implement DC Motor.
• Write a program to control LEDs using Alexa Echo Dot.
• Write a program to control Buzzer using Alexa Echo Dot.
• Write a program to control DC motor using Google Assistance.
• Write a program to control Stepper motor using Google Assistance
• Studying and decoding Computer Bus (RS-232, UART).
• Studying Bluetooth analysis and measurement of Signals
• studying WLAN analysis of 802.11a/b/g/j/p, 802.11n, 802.11ac Signals
3. Understanding battery requirements
• Determining ultra-low deep sleep current of Node
• Measuring Transmit and Receive current signals of Node
• Capturing short transients and fast transients signals of node
• Recording Device(node) operations over extended states.
• Create stable low noise voltage supply for every state of your IOT devices, from sleep to transmit .
• Record and Generate Battery sources with the battery simulation options
4. Understanding Modulation techniques –
• Understanding of ASK, FSK Modulation and measurements
• Capturing the live ASK Signal and decoding it.
• Understanding the BPSK, QPSK * QAM Modulation Techniques and analysis.
• Understanding the APSK * APCO modulation * analysis.

List of Equipment Needed

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Course Outcomes:

Upon completion of this course, the students will be able to

1. Understand the building blocks of IoT technology and explore the vast spectrum of IoT applications
2. Use processors & peripherals to design & build IoT hardware
3. Assess, select and customize technologies for IoT applications
4. Connect numerous IOT applications with the physical world of humans and real life problem solving.
5. Design and implement IOT applications that manage big data

Text Books:

1. Internet of Things – A Hands-on Approach, Arshdeep Bahga and Vijay Madisetti, Universities Press, 2015, ISBN: 9788173719547
2. Getting Started with Raspberry Pi, Matt Richardson & Shawn Wallace, O’Reilly (SPD), 2014, ISBN: 9789350239759

Reference Books:

1. Raspberry Pi Cookbook, Software and Hardware Problems and solutions, Simon Monk, O’Reilly (SPD), 2016, ISBN 7989352133895
2. N. Ida, Sensors, Actuators and Their Interfaces, SciTech Publishers, 2014.
3. Peter Waher, ‘Learning Internet of Things’, Packt Publishing, 2015 3. Editors Ovidiu Vermesan

For detailed syllabus of all the other subjects of Electronics & Telecommunication Engineering 6th Sem, visit ETE 6th Sem subject syllabuses for 2021 regulation.

For all Electronics & Telecommunication Engineering results, visit Anna University ETE all semester results direct link.