About the
Program
• Internet of Things certificate course is designed for the engineering graduates , diploma holders, and any other degree graduates who wants to pursue their career in the multidisciplinary domain and want to help the society by providing solutions to make it smart.
• This course covers from basic concepts of sensors and embedded systems to the advanced topics such as interfacing of sensors, the Microsoft Azure IoT Suite, connecting devices to the cloud, designing cloud services, and collecting and visualizing sensor data.
• Students will explore IoT solutions using hands-on sessions and receive actionable insights for designing and implementing their own IoT solutions.
• After completing this course, students will have the knowledge and skills required to build their own end-to-end IoT solutions using Microsoft’s technologies.
• No prerequisite knowledge is required for this certificate course.
Salient features:
• Focused learning in IoT, Sensor, Embedded systems and cloud.
• Practical application-oriented teaching.
• Hands-on knowledge of Python, Raberry Pi, Arduino IDE, ESP32, Node MCU.
• Project development based on IoT for Industrial purpose.
Program
Objectives
A. The objectives of this course is to learn about Basics of IoT, Components of IoT including Sensors and actuators, computing and communication systems. It will also cover IoT Protocols, Security of IoT and Cloud based design.
B. This course covers Arduino, Raspberry Pi, and Python programming. The course aims for students to use what they’ve learned to design and deploy an IoT device.
C. The course focuses on practical, real-life application of IOT and concepts underpinned by academic theory and research, preparing the student for success anywhere in the world.
D. The objective of introducing this course is to enable self-employment and provide skilled professionals in the field of IOT to organizations.
E. A blend of interactions, presentations, projects, industrial visits, and practical training is used to build the skillset for producing innovative solutions to problems, applying research skills to build IOT-based solutions.
Program
Outcomes
a. Acquire knowledge about general aspects of IoT and Industrial IoT, Embedded System, cloud Computing.
b. Gain a foundational understanding of a subject or tool
c. Apply the knowledge to Design, Code and Build IOT products independently.
d. Demonstrate to work with Micro controllers (Arduino Uno, Nano, NodeMCU), Sensors, Relays, Displays, Keypads.
e. Apply the knowledge to connect to cloud IOT Platforms, Persist Data, Program Triggers and more.
f. Develop job-relevant skills with hands-on projects
Career
Prospects
IoT is one of the fast growing sectors of the tech industry. If you’re looking to advance, or even change, your career, IoT is a great choice. IoT is expected to reach a value of $1,386.06 billion by 2026. This will drive plenty of new jobs in IoT. IoT certifications are a great place to start. This IoT certification course will help you advance in your career.
Listed below are some of the popular job roles for IOT certified professionals:
• IoT/Cloud Software Developer
• IoT Infrastructure Architect
• IoT Systems Administrator
• Vulnerability/Cyber Engineer
• Test Engineer
• Embedded Engineer
• Network Engineer
• Data Scientist
• Data Visualization Expert
• UI Engineer
• Instrument Engineers
Eligibility
Criteria
• B.E./B.Tech. in any branch of engineering.
• Candidates with BSc, MSc, BCA, MCA.
• AMIE in any branch of engineering.
• Diploma in any branch of engineering.
Evaluation
Examination will be conducted as multiple choice questions (MCQs)/Assignments/Case study problems
Program Structure
Total Credits: 20 Duration: 6 months
Sr.
No. |
Module | Total (Hrs/Week) | Total Credits |
Total Credits |
||
TH | PR | TH | TW | |||
1 |
Introduction to Internet of Things (IoT) What is IoT? – IoT and Digitization. IoT Impact – Connected Roadways, Connected Factory, Smart Connected Buildings, Smart Creatures.The oneM2M IoT Standardized Architecture. The IoT World Forum (IoTWF) Standardized Architecture. IoT Data Management and Compute Stack – Design considerations and Data related problems, Fog Computing, Edge Computing. |
02 |
02 |
02 |
01 |
03 |
2 |
Things in IoT
Sensors/Transducers – Definition, Principles, Classifications, Types, Characteristics and Specifications. Actuators -– Definition, Principles, Classifications, Types, Characteristics and Specifications. Smart Object – Definition, Characteristics and Trends. Sensor Networks – Architecture of Wireless Sensor Network, Network Topologies. |
02 |
02 |
02 |
01 |
03 |
3 |
Enabling IoT Technologies
Radio Frequency Identification Technology, Micro- Electro-Mechanical Systems (MEMS), NFC (Near Field Communication), Bluetooth Low Energy (BLE), LTE-A (LTE Advanced), IEEE 802.15.4– Standardization and Alliances, ZigBee. IOT Levels and Deployment Templates. |
02 |
02 |
02 |
01 |
03 |
Program Evaluation
Sr.
No. |
Module |
Examination Scheme | |||
Marks | |||||
CA | ESE | TW | Total | ||
1 | Introduction to Internet of Things (IoT) | 20 | 30 | 25 | 75 |
2 | Things in IoT | 20 | 30 | 25 | 75 |
3 | Enabling IoT Technologies | 20 | 30 | 25 | 75 |
4 | Application Protocols for IoT | 20 | 30 | 25 | 75 |
5 | Create your own IoT | – | – | 50 | 50 |
Total | 80 | 120 | 150 | 350 |
* CA: Continuous assessment, ESE: End-semester examination
Fees
Structure
Rs. 21,000/-