The project is to provide a wearable monitoring system for sewage workers to monitor them while working in the sewage.
Measuring and tracking walking patterns with the goal of detecting and diagnosing injuries and chronic conditions.
An automatic pill dispenser aimed to ease the lives of the elderly and disabled persons.
A glucometer to estimate the blood glucose data accurately using Near-Infrared (NIR) Spectroscopy in a non-invasive manner.
A Wearable Medical device to stream the person's health data (ECG, Heart Rate, SpO2, Activity) in a secured AWS for remote monitoring
Say NO to shock collars! Setup virtual fence on the app and keep your beloved pet within your reach. Track your kids while biking from app.
Inexpensive/disposable wearable two-way communication system for restaurant/grocery/retail workers
Learn how to send messages to and from Amazon Web Services using the PIC-IoT and AVR-IoT development boards from Microchip.
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.
Corona Guard is a smart contact tracing app that aims to slow the spread of COVID-19 by logging interactions between humans in a secure way.
An ultimate low cost device to track symptoms of menopause and keep data in the cloud allowing doctors to have a better patient history.
Setting up a simple crowdsensing web app with edge and cloud model computing.
Application that collects data from the accelerator sensor of the mobile phone using the Generic Sensor API and recognize the user activity.
PART III - An IoT system based on Amazon Web Service (AWS) that simulates an Environmental Station using RIOT-OS, LoRaWAN, TTN and IoT-LAB
Use the ATmega4809 Curiosity Nano to create a low-power BLE weather sensor that connects to AWS cloud through a Raspberry Pi gateway.
PART II - An IoT system based on Amazon Web Service (AWS) that simulates an Environmental Station using RIOT-OS and MQTT-SN
If you have a dog, cat or any pet that needs to go into a kennel when travelling, and be left in the hands of airlines or moving services
Third part of my IoT project. This time the station is a program running on a ST B-L072Z-LRWAN1 board that sends the sensors data using LoRa
RIOT-OS application on IoT-LAB sending virtual/real sensors' values to TTN via LoRaWAN, and the TTN-AWS IoT integration.
Set up a RIOT-OS application on real devices, connect them to The Things Network via LoRaWAN and publish the values on AWS.
PART I - An IoT system based on Amazon Web Service (AWS) that simulates an Environmental Station
A cloud-based IoT system that collects virtual sensors data from RIOT-OS nodes, using MQTT-SN and MQTT protocols, and AWS IoT Core.
Example on how to use AWS to setup an MQTT broker to reply messages sent from an environmental station to a web dashboard.
Second part of my IoT project. This time the environmental station is a program for RiotOS, the operating system for IoT devices.