AM4023 Industry 4. 0 and Iot Syllabus:

AM4023 Industry 4. 0 and Iot Syllabus – Anna University PG Syllabus Regulation 2021

OBJECTIVES:

The course should enable the students:
 To explore how Industry 4.0 will change the current manufacturing technologies and processes by digitizing the value chain.
 To Understand the drivers and enablers of Industry 4.0.
 To Learn about various IoT-related protocols
 To Build simple IoT Systems using Arduino and Raspberry Pi.

UNIT I INTRODUCTION TO INDUSTRY 4.0

Globalization and Emerging Issues, The Fourth Revolution, LEAN Production Systems, Smart and Connected Business Perspective, Smart Factories, Industry 4.0: Cyber Physical Systems and Next Generation Sensors, Collaborative Platform and Product Lifecycle Management, Augmented Reality and Virtual Reality, Artificial Intelligence, Big Data and Advanced Analysis

UNIT II INTRODUCTION TO IOT

Architectural Overview, Design principles and needed capabilities, IoT Applications, Sensing, Actuation, Basics of Networking, M2M and IoT Technology Fundamentals- Devices and gateways, Data management, Business processes in IoT, Everything as a Service(XaaS), Role of Cloud in IoT, Security aspects in IoT.

UNIT III ELEMENTS OF IOT

Hardware Components- Computing (Arduino, Raspberry Pi), Communication, Sensing, Actuation, I/O interfaces. Software Components- Programming API‟s (using Python/Node.js/Arduino) for Communication Protocols-MQTT, ZigBee, Bluetooth, CoAP, UDP, TCP

UNIT IV IOT APPLICATION DEVELOPMENT

Solution framework for IoT applications- Implementation of Device integration, Data acquisition and integration, Device data storage- Unstructured data storage on cloud/local server, Authentication, authorization of devices. Case Studies: IoT case studies and mini projects based on Industrial automation, Transportation, Agriculture, Healthcare, Home Automation

UNIT V IOT APPLICATION IN AUTOMOBILES

Fleet Management: Real-time location monitoring of the fleet, Weight/Volume tracking of cargo that the fleet is carrying, Trucks’ performance statistics like fuel and mileage, Tracking traffic conditions on the road, Route management, Time and Driver management, connected cars: Vehicle to vehicle, Vehicle to infrastructure ,Vehicle to pedestrians, Vehicle to network, Automotive Maintenance System: Autonomous vehicle: In-vehicle Infotainment and Telematics.

TOTAL: 45 PERIODS

OUTCOMES:

The students should be able to:
 Explore how Industry 4.0 will change the current manufacturing technologies and processes by digitizing the value chain.
 Understand the drivers and enablers of Industry 4.0.
 Learn about various IoT-related protocols
 Build simple IoT Systems using Arduino and Raspberry Pi.

REFERENCES:

1. Vijay Madisetti, ArshdeepBahga, Ïnternet of Things, “A Hands on Approach”, University Press. 2015.
2. Dr. SRN Reddy, RachitThukral and Manasi Mishra, “Introduction to Internet ofThings: A practical Approach”, ETI Labs, 2017
3. Pethuru Raj and Anupama C. Raman, “The Internet of Things: Enabling Technologies, Platforms, and Use Cases”, CRC Press, 2017.
4. Adrian McEwen, “Designing the Internet of Things”, Wiley, 2015.
5. Raj Kamal, “Internet of Things: Architecture and Design”, McGraw Hill, 2017.
6. CunoPfister, “Getting Started with the Internet of Things”, O Reilly Media, 2011.