Laboratories
The Department of IoT offers a suite of state-of-the-art, industry-standard laboratories that provide immersive hands-on learning and advanced research capabilities. Each lab is equipped with modern hardware platforms, professional development tools, and real-time experimentation environments that prepare students for global careers in IoT, embedded systems, and intelligent technologies.
IoT Laboratory
The state-of-the-art IoT Laboratory provides a comprehensive environment for building connected and intelligent systems.
Key Features:
- Arduino boards and ESP/NodeMCU modules
- Wide range of sensors (temperature, humidity, gas, PIR, motion, ultrasonic, soil moisture, LDR)
- Wireless communication modules and gateways
- Cloud integration and real-time mobile dashboards
- This lab empowers students to design end-to-end IoT prototypes for smart home, smart agriculture, health monitoring, and automation projects.
OOPS & Programming Laboratory
The state-of-the-art Programming Lab strengthens computational thinking and software design skills.
Key Features:
- Programming in C, C++, Java, and Python
- Object-oriented programming and data structures
- Algorithm development and problem-solving tools
This lab builds a strong software foundation essential for IoT, AI, and embedded development.
AI & Machine Learning Laboratory
The state-of-the-art AI & ML Lab supports innovation in intelligent systems and data-driven decision-making.
Key Features:
- TensorFlow, PyTorch, OpenCV, and Generative AI frameworks
- Tools for deep learning, computer vision, and predictive analytics
Students design AI models and intelligent IoT applications using advanced datasets and modern ML frameworks.
Electronic System Design Laboratory
Electronic System Design Lab focuses on mastering fundamental and advanced electronics.
Key Features:
- Analog & digital component kits
- Sensors, actuators, and power modules
- Oscilloscopes, function generators, digital multimeters
- PCB design, fabrication, and testing tools
- Students gain expertise in circuit design, debugging, and system-level hardware validation.
This lab builds a strong software foundation essential for IoT, AI, and embedded development.
Embedded System Design Laboratory
The state-of-the-art Embedded System Design Lab supports professional-grade embedded development and real-time computing..
Key Features:
- STM32 Nucleo & Discovery boards
- ARM Cortex-M microcontroller platforms
- Debuggers, emulators, and peripheral interfacing modules
Industry Support:
Key Features:
This lab features access to BlackBerry® QNX, a cutting-edge industry-grade, safety-certified Real-Time Operating System (RTOS) used in automotive, aerospace, medical devices, and industrial automation. Students gain hands-on experience with state-of-the-art embedded software environments, enhancing their readiness for high-end industry roles.
Advanced IoT Laboratory
The state-of-the-art Advanced IoT Lab enables students to work on next-generation IoT and edge intelligence systems.
Key Features:
- Raspberry Pi boards for edge computing
- BeagleBone Black for Linux-based embedded development
- Industrial PLC units for automation and control
- LoRa gateways and long-range wireless modules
This facility supports high-level learning in Industrial IoT, edge AI, protocol engineering, and smart manufacturing.