Center of Excellence For
UNIVERSITY | INSTITUTE | GOVERMENT | NGO
for IoT & Embedded Systems
Empowering Innovation in IoT, Embedded Systems & Edge AI
About ISIEINDIA Centre of Excellence in IoT and Embedded Lab
The ISIEINDIA IoT and Embedded Lab is a cutting-edge Centre of Excellence designed to empower students, educators, and researchers with practical skills in Internet of Things (IoT), Embedded Systems, and Edge AI. Built to bridge the gap between academic learning and industry demands, the lab features plug-and-play modules, industry-grade microcontrollers, and support for multiple communication protocols like Wi-Fi, LoRaWAN, ZigBee, and Bluetooth. It provides a hands-on environment to explore emerging domains such as 5G, Blockchain, UAVs, Brain-Computer Interfaces, and TinyML.
The lab supports project-based learning with comprehensive guides and reference codes, fostering innovation and real-world problem solving. Beyond infrastructure, ISIEINDIA offers training, internships, placement assistance, and entrepreneurial guidance to ensure holistic development. This lab serves as a launchpad for future tech leaders, combining skill development with cutting-edge research in a single dynamic ecosystem tailored for academic excellence and industrial relevance.
Our Process
At ISIEINDIA, we don’t just build labs — we create immersive learning environments where academia meets innovation.
Our Centre of Excellence for IoT & Embedded Systems is designed to equip students, faculty, and researchers with future-ready skills, tools, and technologies to lead in the connected world.
What do we do?
We design and set up advanced IoT & Embedded Labs for academic and research institutions. Our labs empower learners with hands-on skills in real-world technologies like IoT, Edge AI, and more.
How do we do it?
We provide turnkey lab solutions with plug-and-play hardware, curriculum, and training support. From installation to upskilling and placement, we ensure complete academic and industrial integration.
How are we unique?
We offer a single platform that supports multiple microcontrollers and next-gen technologies. Beyond lab setup, we provide internships, placements, entrepreneurial guidance, and ongoing support.
Why Choose Us ?
We are Not Just Limited to Lab Setup, We go beyond infrastructure to ensure your success:
- Training & Upskilling Programs
- Internships & Placement Assistance
- Corporate Networking Opportunities
- Entrepreneurial Support for Startups
- Complete Learning Materials & Experiments
- Customized IoT Solutions for Research & Industry
Projects Completed
Verified Reviews
Satisfied Clients
Exclusive Products
70+ EV Centres of Excellence Successfully Set Up Nationwide
Features of IoT and Embedded Lab
Technologies Behind Our IoT and Embedded Lab
Frequently Asked Questions (FAQ)
What is IOT Lab
An IoT lab is a dedicated space equipped with the necessary hardware and software to design, develop, and test Internet of Things (IoT) solutions. These labs typically include components like microcontrollers, sensors, actuators, networking devices, and connectivity options, allowing for experimentation and prototyping of IoT devices and systems. They also often feature test benches, data visualization tools, and connectivity infrastructure to facilitate comprehensive testing and analysis
What is an embedded system lab?
The embedded systems lab is well equipped with high-end test instruments and assembly and repair stations for product development and testing. The lab also has a Thermal chamber for temperature cycle testing. A wing in the lab also caters to limited product assembly of finished products with test jig supports.
Can the IoT Lab be used for Industry 4.0 applications?
Yes, the IoT Lab is designed to support Industry 4.0 applications, including predictive maintenance, smart agriculture, and digital transformation. It provides necessary tools and components to create prototypes and solutions for industrial IoT application.
Which microcontrollers are most commonly used in IoT labs?
Popular microcontrollers include ESP32, Arduino, STM32, Raspberry Pi, and AVR platforms.
What are the top skills gained from an IoT lab?
Students learn sensor integration, data communication, embedded C/C++, Python, Edge AI, and cloud connectivity.
Is IoT and Embedded Systems a good career option?
Yes, it’s a high-demand field in industries like automotive, healthcare, smart cities, and manufacturing.
What are the key components in an embedded systems lab?
Microcontrollers, sensors, actuators, communication modules (WiFi/Bluetooth), power supplies, and development software.
How is IoT different from embedded systems?
Embedded systems are device-focused, while IoT connects embedded systems to the internet for remote monitoring and control.
Can IoT labs be set up in schools and colleges?
Absolutely. Many institutions are adopting IoT labs for STEM education, research, and industry collaborations.
What are common IoT projects for beginners?
Smart home automation, weather monitoring, smart irrigation, health tracking, and smart parking.
Is cloud integration important in IoT labs?
Yes, it’s crucial for real-time data storage, visualization, and remote control using platforms like AWS, Azure, or Firebase.
Do IoT labs offer hands-on learning experiences?
Definitely. They develop job-ready skills aligned with roles like IoT Developer, Embedded Engineer, and Firmware Developer.
Do IoT labs offer hands-on learning experiences?
Yes, most labs are designed for project-based, hands-on learning with real hardware and simulation tools.
What protocols should an ideal IoT lab support?
WiFi, LoRaWAN, ZigBee, Bluetooth, Ethernet, MQTT, and HTTP for full-spectrum communication testing.
How can IoT labs support research and innovation?
By enabling real-time data experimentation, prototyping, and testing across domains like Edge AI, 5G, and BCI.
How much does it cost to set up an IoT and Embedded Lab?
Costs vary, but scalable packages are available—from basic setups to advanced labs with Edge AI and cloud integration.
