BETCK105H Introduction to Internet of Things (IOT) syllabus for EE Stream Physics Group



A d v e r t i s e m e n t

Module-1 Basics of Networking 8 hours

Basics of Networking:

Introduction, Network Types, Layered network models

Emergence of IoT:

Introduction, Evolution of IoT, Enabling IoT and the Complex Interdependence of Technologies, IoT Networking Components

Textbook 1: Chapter 1-1.1 to 1.3 Chapter 4 –4.1 to 4.4

Module-2 IoT Sensing and Actuation 8 hours

IoT Sensing and Actuation:

Introduction, Sensors, Sensor Characteristics, Sensorial Deviations, Sensing Types, Sensing Considerations, Actuators, Actuator Types, Actuator Characteristics.

Textbook 1: Chapter 5 –5.1 to 5.9

Module-3 IoT Processing Topologies and Types 8 hours

IoT Processing Topologies and Types:

Data Format, Importance of Processing in IoT, Processing Topologies, IoT Device Design and Selection Considerations, Processing Offloading.

Textbook 1: Chapter 6 –6.1 to 6.5

Module-4 ASSOCIATED IOT TECHNOLOGIES 8 hours

ASSOCIATED IOT TECHNOLOGIES

Cloud Computing: Introduction, Virtualization, Cloud Models, Service-Level Agreement in Cloud Computing, Cloud Implementation, Sensor-Cloud: Sensors-as-a-Service.

IOT CASE STUDIES

Agricultural IoT –Introduction and Case Studies

Textbook 1: Chapter 10–10.1 to 10.6; Chapter 12-12.1-12.2

Module-5 IOT CASE STUDIES AND FUTURE TRENDS 8 hours

IOT CASE STUDIES AND FUTURE TRENDS

Vehicular IoT –Introduction

Healthcare IoT –Introduction, Case Studies

IoT Analytics –Introduction

Textbook 1: Chapter 13–13.1; Chapter 14-14.1-14.2; Chapter 17-17.1

 

Course outcome (Course Skill Set)

At the end of the course the student will be able to:

CO1Describe the evolution of IoT, IoT networking components, and addressing strategies in IoT.

CO2Classify various sensing devices and actuator types.

CO3Demonstrate the processing in IoT.

CO4Explain Associated IOT Technologoes

CO5Illustrate architecture of IOT Applications

 

Assessment Details (both CIE and SEE)

  • The weightage of Continuous Internal Evaluation (CIE) is 50% and for Semester End Exam (SEE) is 50%.
  • The minimum passing mark for the CIE is 40% of the maximum marks (20 marks out of 50).
  • The minimum passing mark for the SEE is 35% of the maximum marks (18 marks out of 50).
  • A student shall be deemed to have satisfied the academic requirements and earned the credits allotted to each subject/ course if the student secures not less than 35% (18 Marks out of 50) in the semester-end examination (SEE), and a minimum of 40% (40 marks out of 100) in the sum total of the CIE (Continuous Internal Evaluation) and SEE (Semester End Examination) taken together.

 

Continuous Internal Evaluation(CIE):

Two Unit Tests each of 30 Marks (duration 01 hour)

  • First test after the completion of 30-40 % of the syllabus
  • Second test after completion of 80-90% of the syllabus

One Improvement test before the closing of the academic term may be conducted if necessary. However best two tests out of three shall be taken into consideration

Two assignments each of 20 Marks

The teacher has to plan the assignments and get them completed by the students well before the closing of the term so that marks entry in the examination portal shall be done in time. Formative (Successive) Assessments include Assignments/Quizzes/Seminars/ Course projects/Field surveys/ Case studies/ Hands-on practice (experiments)/Group Discussions/ others. . The Teachers shall choose the types of assignments depending on the requirement of the course and plan to attain the Cos and POs. (to have a less stressed CIE, the portion of the syllabus should not be common /repeated for any of the methods of the CIE. Each method of CIE should have a different syllabus portion of the course). CIE methods /test question paper is designed to attain the different levels of Bloom’s taxonomy as per the outcome defined for the course.

The sum of two tests, two assignments, will be out of 100 marks and will be scaled down to 50 marks

 

Semester End Examination(SEE):

Theory SEE will be conducted by University as per the scheduled timetable, with common question papers for the subject (duration 03 hours)

  • The question paper shall be set for 100 marks. The medium of the question paper shall be English/Kannada). The duration of SEE is 03 hours.
  • The question paper will have 10 questions. Two questions per module. Each question is set for 20 marks. The students have to answer 5 full questions, selecting one full question from each module. The student has to answer for 100 marks and marks scored out of 100 shall be proportionally reduced to 50 marks.
  • There will be 2 questions from each module. Each of the two questions under a module (with a maximum of 3 sub-questions), should have a mix of topicsunder that module.

 

Suggested Learning Resources:

Books (Title of the Book/Name of the author/Name of the publisher/Edition and Year)

1.Sudip Misra, Anandarup Mukherjee, Arijit Roy, “Introduction to IoT”, Cambridge University Press 2021.

Reference:

2.S. Misra, C. Roy, and A. Mukherjee, 2020. Introduction to Industrial Internet of Things and Industry 4.0. CRC Press.

3.Vijay Madisetti and Arshdeep Bahga, “Internet of Things (A Hands-on-Approach)”,1st Edition, VPT, 2014.

4.Francis daCosta, “Rethinking the Internet of Things: A Scalable Approach to Connecting Everything”, 1st Edition, Apress Publications, 2013.

Last Updated: Tuesday, January 24, 2023