Temperature Monitoring with MQTT-SN and AWS using Nrf52840dk board
Implementation of fire detection system, using Esp32 with RIOT, building a cloud infrastructure with MQTT and AWS, and creating a website.
This project incorporates VR and AR to bring an immersive classroom experience to students who cannot attend a class in a physical setting.
Green Light... Red Light!
Sustainable platform of sensing and irrigation automation based around the SenseCAP K1100 with predictive analysis via the Helium Network.
Air Quality Monitoring that uses the Intel Edison Compute Module, Amazon AWS, Visualization through Kibana, and drones!
This projects shows a simple environment monitor which sends you an EMail when an abnormal weather condition is detected.
Sphero's BB-8 uses the Intel Edison and Amazon Web Services to communicate back to the rebel forces.
Detection and monitoring with AWS free parking spaces through the Sony Spresense board and pre-trained ML models thanks to Edge Impulse.
An AWS IoT Tutorial With LinkIt ONE
System that monitors a tap with the goal to detect wheter there is a leak of water and in case of leak notify it through an acoustic signal.
LoraWAN, HeartRate and Enviroment Monitor
With QuickFeather and SensiML, through a neural network, which indicates the type of bird we are hearing.
Get the best night's sleep by using Alexa and Arduino to monitor the conditions in your bedroom, make suggestions and help you sleep better.
Care for elderly people, remind their medication, doctor appointment, and heart tests. Notify caregivers when something goes wrong.
Interconnection and implementation of external sensors for later use IoT applications deployments.
A system that detects the opening and closing of doors and CO2 concentration to make the air in the room comfortable.
A smart toilet that maintains a healthy environment analyzing air quality data using machine learning.
This is a line following robot with vaccum cleaning capabilities. This project explains how to build it using Arduino and also NodeMCU.
Mixing existing technologies and creativity, the device is one of a kind and aims to help hospitals during the pandemic.
Just looking at museum's artworks is no longer enough, visitors want to interact with them while keeping social distance (COVID-19 era)
RIOT-OS application on IoT-LAB sending virtual/real sensors' values to TTN via LoRaWAN, and the TTN-AWS IoT integration.
Using Sigfox solution from Unabiz (an Arduino shield) in a mouse trap to push SMS and email thru AWS IoT core and store count in DynamoDB.
Set up a model for the User Activity Recognition with the Accelerometer sensor of the smartphone, using a crowdsensing IoT app.