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Internet of Things (IoT)
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Course Mode
Offline
Duration
2
Eligibility
For M.Tech: A B.E./B.Tech degree in Computer Science, IT, Electronics & Communication, or a related field with a minimum aggregate of 60%. For Certificate Courses: No strict academic eligibility, but a background in engineering or a strong understanding of programming and electronics is highly recommended.
Entrance Exam
GATE , University-Specific Exams
Type of Course
PG
Course Summary
A course in IoT provides a comprehensive understanding of the entire IoT ecosystem. The curriculum typically covers the foundational concepts of interconnected devices, data communication protocols, sensor technologies, and data analytics. Students learn to design, program, and secure IoT devices, along with integrating them with cloud platforms like AWS IoT or Microsoft Azure IoT. This course is for engineering graduates and IT professionals who want to specialize in this highly innovative field. It is particularly valuable for those from Electronics & Communication Engineering, Computer Science, or Information Technology backgrounds who want to build smart solutions for various industries.
π Upcoming Admission Deadlines
- internet-of-things-iot with 50% scholarship August 28, 2026
Top Recruiters
Wipro
TCS
Microsoft
Infosys
HCL Technologies
Amazon
Accenture
Career Scope
Β Network Engineer
Electric Engineer
Software Developer
College-wise Fees
Frequently Asked Questions
IoT is a network of physical devices, appliances, vehicles, and other items embedded with software, sensors, and connectivity that allow them to connect and exchange data. This enables the remote monitoring and control of devices and tasks, leading to more connected and automated environments.
An IoT system typically consists of four fundamental components:
Sensors/Devices:
These are physical objects that collect data from the environment.
Connectivity:
This is the method used to send data, such as Wi-Fi, Bluetooth, or other network protocols.
Data Processing:
Once data is collected and transmitted to the cloud or a server, processing systems analyze it.
User Interface:
This is how users interact with the system, for example, through a mobile app.
IoT is used in various fields to improve functionality and services:
Smart Homes: Remotely controlling lights, appliances, and security systems.
Smart Cities: Optimizing traffic, managing energy consumption, and improving public services.
Healthcare: Remote patient monitoring and connected medical devices.
Industrial IoT (IIoT): Improving factory operations, monitoring equipment, and enabling automation in industries.