Smart Garden is a plant environmental monitoring system.
Controlling water and heat of a plantation, using real data as temperature, relative air humidity, and soil moisture.
Chunchunmaru is an Arduino UNO-based robot which can carry heavy loads (100kg-200kg) from one location to another.
saving water smartly.
Save time by knowing whether the Faculty is in his chamber or not.
Know when your clothes are dry
An IoT smart mailbox for securely receiving parcels and getting notification on app without being present at home.
A cube with all the necessary sensors, suitable for a wide range of applications like agriculture. Know the land beneath you!
Particle Photon circuit allowing the display of environmental conditions (light, temperature, humidity, pressure) using the Blynk app.
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.
A solution to measure noise level and sound pollution in urban areas.
A simple 4 channel design/program for monitoring orchid and plant moisture levels.
You will never have to find your light switch again in the night, just walk into your bathroom and lights are on.
Monitor weather and security remotely with Blynk and the CC32000 LaunchPad!
Save water, save energy and monitor water consumption with a smart faucet.
Water is essential for life. Save water is saving Earth. So, why not use Blynk Board to save Earth?
Sending The Data From The LoRa Modules To Blynk Servers Using Ai-Thinker LoRa Modules
Make an affordable but smart Alarm system for your home, or any of your buildings. It can run up to 2 years just from batteries.
Turn on a fan automatically with a Particle Photon using temperature sensing and the Blynk app.
The IoT egg tray lets you know how many eggs you have left in the fridge and also shows temperature & humidity of your fridge.
A new way to connect sensors! Connect up to five sensors to the particle powered WiSor and obtain real-time data on your mobile phone!
A monitoring station for my off-grid greenhouse. Multiple environmental parameters, WiFi, solar-powered, cloud connectivity.
Control temperature, humidity, CO2, and light with an automated open-source mushroom fruiting chamber using ESP32 and Blynk 2.0.
Monitor the surrounding dust and large particle (>0.5µm) for long time using Blynk IOT and plot the data for further research.