IoT LPWAN, EdegAI Lab Kit

With experience in Industry 4.0 and research in technology, we have built a comprehensive IoT Lab Kit to enhance the skills of students. We had designed a more open, rapid plug-and-play Prototyping Lab that will be compatible with the most popular protocols used for the realization of IoT such as ZigBee, LoRaWAN, Wifi, Ethernet, Bluetooth, RS485/RS232, etc. The labs are set up as Self Sustainable and Sufficient Model which allows students to participate more and a lesser amount of faculty’s time is consumed. The clarity of the roles and responsibilities allows for running these labs in a Sustainable and Sufficient mode.

Advantages of UCT IoT, LPWAN, and Edge-AI Lab Setup

Learning through the Hands-on approach is a long-lasting impact hence it is important to emphasize hands-on learning. The labs are set up as Self Sustainable and Sufficient Model which allows students to participate more and a lesser amount of faculty’s time is consumed. The clarity of the roles and responsibilities allows for running these labs in a Sustainable and Sufficient mode. 

Below are the key objectives and Benefits of Industry driven/collaborative labs provided by us:

• To prepare the students for global competence, with core knowledge in Electronics and Communication/ Electronics & Instrumentation/ Electrical Engineering/ Computer Engineering having the focus on research to meet the needs of industry.

• To effectively bridge the gap between industry and academics for effective communication skills, professional attitude, and a desire to learn. Empower students to become skilled and ethical Entrepreneurs.

• To have excellent scientific and engineering breadth to comprehend, analyze, design, and solve real-life problems using state-of-the-art techniques.

• Build firmware for prototypes and technology explorations for the future of connected devices.

• Work in a system with smart embedded devices, backend web services, IoT, Cloud Computing, AI/ML, Big data, etc.

• Contribute to the evolution of the mixture of clean technology and the Internet of Things.

Features and Technical Specifications

1. IoT Development Platform “Connectify” With the below features

• ADC interface
• Zigbee interface
• Wifi interface
• Ethernet interface
• Bluetooth interface
• LCD interface
• Serial interface
• Led button and switches
• Microcontrollers (8051, AVR, ARM, Arduino, NodeMCU)
• Relay and buzzer
• Motor driver
• RTC and EEPROM
• Sensor interface like:
• Ultrasonic Sensor
• Humidity and Temp Sensor
• Infrared Sensor
• Light sensor
• Gas sensor
• Moisture sensor

2. LoRADuino Board

• Arduino Uno
• LoRa interface
• LCD interface
• Sensor interface like:
• Ultrasonic Sensor
• Temperature and Humidity Sensor
• Air Quality Sensor
• LDR Sensor
• Accelerometer and Gyroscope Sensor (MPU6050)
• Relay and Buzzer
• Motor Driver
• RS232
• LED’s
• Switches and Buttons

3. NodeMCU Sensor Board

• NodeMCU
• Sensor interface like:
• LDR Sensor
• Temperature and Humidity Sensor
• Air Quality Sensor
• Ultrasonic Sensor
• Accelerometer and Gyroscope Sensor (MPU6050)
• OLED Display
• LED
• Switch and Push Button

4. Raspberry Pi Kit

• Quad-Core 1.2GHz Broadcom BCM2837 64bit CPU
• 1GB RAM
• BCM43438 wireless LAN and Bluetooth Low Energy (BLE) on board
• 100 Base Ethernet
• 40-pin extended GPIO
• 4 USB 2 ports
• 4 Pole stereo output and composite video port
• Full-size HDMI
• CSI camera port for connecting a Raspberry Pi camera
• DSI display port for connecting a Raspberry Pi touchscreen display
• Micro SD port for loading your operating system and storing data
• Upgraded switched Micro USB power source up to 2.5A
• Breadboard of size: 2.2" x 3.4" (5.5 cm x 8.5 cm)
• MikroBUS compatible Plug-in

5. LoRa Network Gateway

• Commercial Grade Indoor LoRaWAN® Network Gateway
• Works on Semtech LoRa® Packet Forwarder
• Default Ethernet Back-haul, Automatic Fallback to WiFi
• Range up-to to 5 km Line of Sight
• Ambient operating Temperature -20 to 75 °C
• Suitable for small in-building Private LoRaWAN® Network

6. LoRa Network Server

LoRa Network Server is a LoRaWAN® Application Server. It is responsible for the device "inventory" part of a LoRaWAN infrastructure, handling of join-request, and the handling and encryption of application payloads. It offers a web interface where users, organizations, applications, and devices can be managed. For integration with external services, it offers a gRPC and RESTful API. Device data can be sent and/or received over MQTT, HTTP, and be written directly into Database.