To assist the doctors to track their patients during COVID-19
IoT with your robot at one place and your phone another, both connected via internet.
MovingLight is a moveable NeoPixel LED light with two stepper motors and is controlled via Bluetooth and Blynk app.
Tired of getting off your couch to unlock your door for your roommate? Forget to lock your door on your way to class? Say no more…
You can easily water your plants using IOT with the Soil moisture sensor
Control your heating with this simple device that is easy to modify. You can control your sunblinds or boiler for optimal temperature.
Use a front-facing light to attack your opponent's side-mounted photoresistor. When your hit points drop to 0, you are dead!
Running a local copy of Blynk server.
An automatic pellet dispenser designed to feed your dog or cat without lifting a finger
Turn a light on/off using a relay, Blynk, and an IR Break Beam.
You can control your home light or any appliances from anywhere and anyplace
This project is a wireless drone that can be controlled using the Blynk app on your phone. It has an autonomous mode that avoids objects.
You love daily changing Bible verse? Then the "Die Losungen" are a concept: here they are represented with value added information.
Calculate distance to a certain object using an ultrasonic sensor. It can be used for car distance alerts, security systems, etc.
Domotic unit to control temperature, humidity and time inside a greenhouse.
This project controls the power going through an extension cord into a lamp using surrounding light.
This project makes us able to control our home lamp remotely from our Android devices.
There are many uses for servos now-a-days! There are even more uses for WiFi servos!
Take care of your plant with automatic watering.
I remodeled a stag beetle toy to be controllable with Blynk. I used Adafruit Feather 32u4 Bluefruit LE as the microcontroller.
farmMinder monitors soil moisture level and scares away squirrels! Using the Blynk platform, you can monitor your farm remotely.
How to realize an alarm clock controlled by a smartphone, using simple raw materials and an Arduino-based ESP32.
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.
SuperWear is one-of-a-kind and seamless approach that enables an individual to utilize technology for healthcare and daily lifestyle.
