Build an ESP8266 Mobile Robot
In this guide, you will learn how to build your own mobile robot based on the ESP8266 WiFi chip. You will then be able to control the robot via WiFi, right from a nice interface on your computer!
Build a Cloud-Connected ESP8266 Power Meter
In this project, you will learn how to use the ESP8266 feather board to make a DC power meter, that will display the power on an OLED screen & also send the data to Adafruit IO.
Geofencing with the FONA 808 & Adafruit IO
In this project, you will learn how to build a geofencing project, that you will be able to track online.
Remote controlled door lock using a fingerprint sensor & Adafruit IO
In this project, you will learn how to control a door lock remotely, simply by using your fingerprint. Because we'll be using Adafruit IO, the fingerprint sensor & the lock can be in completely different places.
Home Automation in the Cloud with the ESP8266 & Adafruit IO
In this guide, we are going to build two modules based on the ESP8266: a sensor module, and a lamp controller module. We will then use Adafruit IO to control these modules from anywhere.
Create an Internet of Things Dashboard with Adafruit IO
In this guide you will learn how to make measurements (temperature, humidity, ambient light) with an Arduino board and send this data via WiFi to Adafruit IO. You will then be able to visualise this data in real-time, from anywhere in the world!
Monitor Your Home With the Raspberry Pi B+
There are lots of devices on the market that allow you to monitor your home from a central interface. In this guide, we are going to make our own DIY version of such devices, based on the Raspberry Pi B+.
Wireless Power Switch with Arduino & the CC3000 WiFi Chip
In this project, you will learn how to build an open-source version of a WiFi-controller power switch. You will be able to plug a lamp or any 110v/230v device to your project and control it wirelessly from a central interface.
A REST API for Arduino & the CC3000 WiFi Chip
Representational state transfer (REST) is a software architecture that is widely used for web applications. In this project, we'll bring this architecture to Arduino so you can control an Arduino board via WiFi using a standard communication scheme. This way, you won't have to start from scratch at every new project and you'll be able to create complex wireless applications!
Wireless Security Camera with the Arduino Yun
In this project, we are going to interface a USB camera to an Arduino Yun to make exciting applications. The first one is to take a picture & upload it automatically to Dropbox when motion is detected. We'll also make the camera stream video wirelessly to Youtube, so you can monitor your home from anywhere!
Cloud-Connected Weather Station with the Arduino Yun & Temboo
In this project, you will learn how to build a project around the Arduino Yun & Temboo to automatically log temperature, humidity, barometric pressure & light level measurements into a Google Docs spreadsheet and create automated alerts based on your data.
Bluetooth Temperature & Humidity Sensor
In this project, you will learn how to connect a Bluetooth module to Arduino, transmit measurements from a temperature & humidity sensor to your computer, and display the data in a nice Python interface.
Wireless Gardening with Arduino + CC3000 WiFi Modules
In this article, you'll learn how to interface a soil temperature & humidity sensor with Arduino, send this data to the cloud, and monitor your garden remotely via WiFi.
WiFi Controlled Mobile Robot
Ever wanted to control your mobile robot remotely from your computer or your smartphone ? Now it is possible using Arduino and the CC3000 WiFi chip. In this guide you'll learn how to install the required components on a robot, and how to set the software environment so you can control the robot right from your browser
Adafruit CC3000 WiFi and Xively
In this guide you will learn how to connect your sensors to the Internet of Things platform Xively using Arduino & the Adafruit CC3000 WiFi breakout board. With Xively, you can then monitor the status of your sensors from anywhere using the Xively web interface.