Control and monitor the home environment using Android app with advanced features such as voice command, scheduling, home preparing itself.
This system will water your plants automatically, monitor the level of the water reservoir and will keep your plants happy on many aspects.
A method in which waste management is automated. An innovative system that will help keep the city clean and healthy
A project that speaks on behalf of mother nature. It is real time air quality monitoring device.
A simple device that turns the lights on when the user approaches home.
Octopod, a uniquely shaped full automation system that allows you to monitor your industry and keep security with AI and smart RFID locks.
Monitoring Industries using the power of Internet and automation.
Read sensor data and toggle LEDs with the Blynk mobile app and the TI CC3200 LaunchPad
With this tutorial, we will learn how to handle this fantastic little device, the NodeMCU ESP-12E and Blynk platform.
A system that allows you to detect movement, send alert through your smartphone and turn on and off the lights of your home over internet!
Simply click a button to receive your phone's geolocation.
Control your robot from a Wi-Fi network using an ESP8266 Wemos D1, Arduino IDE and Blynk App!
Making a smart garage model from the toy building using XOD and Blynk.
An IoT smart mailbox for securely receiving parcels and getting notification on app without being present at home.
Adjust your blinds from the comfort of your seat without having to go through the effort of standing up.
Concerned about IoT privacy on the cloud? Blynk offers an interesting option for improved security with a local server.
This project was part of the Lane Tech HS Physical Computing Lab course. I created this project as part of the Home Automation/IoT project.
Create your Blynk mobile app to monitor your garden and activate the irrigation.
In this I show you how to control LEDs using Blynk app In IoT platform.
Burn everything written in the Blynk terminal to an SD card in seconds, anywhere the user is located.
I work a lot in my garage or in the garden, so it happens pretty often that I just don't hear my doorbell. So I made a smart one.
In this project, we're going to make a keyless door lock system that uses a 4X4 keypad to enter the keys and a servo motor to open or close.
Controlling a robot via WiFi, using Arduino and Blynk application.
Overfreezing you fridge is not good for your food and power saving, with this fridge monitor, you will always know the temperature in there.