Syllabus (COMPUTER APPLICATION)

Course Type: MAJ-18

Semester: 8

Course Code: BBCAMAJ18C

Course Title: Internet-of-Things (IoT)

(L-P-Tu): 4-2-0

Credit: 6

Practical/Theory: Combined

Course Objective: Course Objectives: Students will be explored to the interconnection and integration of the physical world and the cyber space. They are also able to design & develop IOT Devices.

Learning Outcome: Course Outcomes: Students will be able to understand the application areas of Internet of Things (IoT). Students will be able to grow the theoretical background of implementation of IoT. Students will be able to understand various architectures of developing IoT solutions. Students will get accustomed with working with sensors, actuators related to IoT. Students will be able to learn other associated technologies like cloud computing. Students will be able to implement IoT based solutions using Arduino/ Raspberry Pi. computing.

Syllabus:

Unit I: Theory Credit: 4 (L 60)

Introduction to IoT: Sensing, Actuation, Networking Fundamentals, Communication Protocols, Sensor Networks, Machine-to-Machine Communications, IoT Definition, and Characteristics are some examples of how the Internet of Things is being used in society, manufacturing, healthcare, banking, and communication. Functional Building Blocks for the Internet of Things, Communication Models, and APIs. [L 11]

M2M to IoT: Concepts of Cyber-physical-system (CPS), The Vision-Introduction, From M2M to IoT, M2M towards IoT-the global context, Differing Characteristics. Definitions, M2M Value Chains, IoT Value Chains, An emerging industrial structure for IoT. [L 10]

IoT Reference Architecture: Getting to Know the IoT Architecture, IoT networking fundamentals, connectivity technologies, and several IoT architectural perspectives, including functional, informational, operational, and deployment architectures. Design restrictions in the IoT world: introduction, technical design limitations. [L 17]

IoT Physical Servers and Cloud Communications: Introduction to Cloud Computing Basics, Cloud Computing Service Model, Cloud Computing Management, and Cloud Computing Security; APIs Web server - Cloud for IoT, Web server for IoT. [L 10]

IoT Computing: Python introduction for IoT, a description of many IoT tools Introduction to Arduino and the Raspberry Pi; IoT implementation using Arduino and the Pi; Cloud computing, fog computing, connected vehicles, case studies; data aggregation for the IoT in smart cities; Issues with IoT security and privacy. [L 12]

Unit II: IOT Lab Credit: 2 (L 60)

Practical part will be based upon the modules covered in the theory part and implemented by Adino.

Reading References:

1. Adrian McEwen, Hakim Cassimally, Designing The Internet of Things, Wiley.
2. Olivier Hersent, David Boswarthick, Omar Elloumi, The Internet of Things: Key Applications and Protocols, Wiley.
3. Vahid Dastjerdi, RajkumarBuyaa, Internet of Things: Principles and Paradigms Morgan Kaufmann Publishers In.
4. Samuel Greengard, The Internet of Things, The MIT Press.
5. Klaus Schwab, Portfolio Penguin, The Fourth Industrial Revolution.
6. Cuno Pfister, Getting Started with Internet of Things, Make Community, LLC.
7. Peter Waher, Learning Internet of Things, Packt Publishing Limited.