OVERVIEW
Hi everyone, my name is Guillermo, I'm an electronic engineer and ebooks' writer. More details about my project, and the experiments that I plan to perform are shown below.
CONTENT:
My project is divided into the sections shown below:
Post 1: Overview
- Content
What problem I'm going to solve?
- What I'm going to build to solve this problem?
- Schematic Diagram
- Things
- Hardware Unpacking
Post 2: Setting Up the Hardware
- Arduino NANO 33 IoT, Features
- Arduino NANO 33 IoT Installation
- Libraries Installation
- Firmware Update Procedure
Post 3: Infrared Thermometer with Ubidots, Part 1
Hardware
Software
- 3D Printing and Assembling the Device
Post 4: Infrared Thermometer with Ubidots, Part 2
- Ubidots IoT Server Configuration
- Test
- Conclusion
Post 5: Pulse Oximeter and Heart Rate Sensor with Ubidots, Part 1
Hardware
Software
- 3D Printing and Assembling the Device
Post 6 Pulse Oximeter and Heart Rate Sensor with Ubidots, Part 2
- Ubidots IoT Server Configuration
- Test
- Conclusion
Post 7: Infrared Thermometer with ThingSpeak, Part 1
Hardware
Software
Post 8: Infrared Thermometer with ThingSpeak, Part 2
ThingSpeak IoT Server Configuration
Test
Post 9: Infrared Thermometer with ThingSpeak, Part 3
ThingTweet App
React App
Test
Conclusion
Challenges
Post 10: Explore Sensors Data with Android Applications
Ubidots Explorer App
ThingView App - ThingSpeak Viewer
Conclusion
Post 11: IoT System with Thinger.io Platform, Part 1
Simple IoT Project
Adding Devices
Adding Dashboards
Adding Widgets
Test
Post 12: IoT System with Thinger.io Platform, Part 2
IoT System
Adding Devices
Adding Dashboards
Post 13: IoT System with Thinger.io Platform, Part 3
Adding Widgets
Test
Conclusion
WHAT PROBLEM I'M GOING TO SOLVE?
We can do somethings to mitigate and contain the spread of infectious diseases. The first thing is always to understand what they'ree, how they're transmitted and how they affect ourselves. A clear example is the SARS-COV2 coronavirus.
To avoid this issue, I have proposed the development and use of this application: "Health Monitoring in Home Utilizing IoT". In this system we can contact the medical service, then they can monitor our vital signs via IoT, and finally we follow the indications of the doctors.
WHAT I'M GOING TO BUILD TO SOLVE THIS PROBLEM?
E-health becomes one of the internet's products for healthcare. This system can monitoring the patient's condition based on medical parameters from a far distance. Internet of things became the main concept in this system, which combines wearable sensors, communication systems, and user interfaces. This system is reliable and valid system, easily carried, help the doctor to monitor patients from far distance expectantly to overcome this kind of problems. I will develop this system in less than 60 days, and here we will go step by step from testing the hardware to testing several IoT servers.
Through this device, the data will be sent to the cloud server database. The system for healthcare is shown in the figure attached. After data is sent to the cloud, they use several algorithms for data processing that will determine the level of patient health. With this algorithms doctors and medical personnel can find out whether the patient's condition is worsening or is better.
SCHEMATIC DIAGRAM:
THINGS:
- HARDWARE:
- SOFTWARE:
- IOT SERVERS:
HARDWARE UNPACKING:
On March 26, the shipment arrived at my address and this is the package:
Opening the box which is original Arduino ... thanks to the sponsors.
First view of the Arduino Nano 33 IoT board.
