This article describes how to use a Teensy 3.1 board from PJRC.com to simulate keyboard, mouse and touch screen USB HID devices at the same time. This allows to remote-control a computer through one USB cable.
A hardware-based random number generator that exploits the line capacitance and natural frequency of the circuitry of a micro controller to generate a truly random number.
This article provides general guidelines for connecting any Intel® Internet of Things (IoT) devices (that is, devices that support Intel microcontrollers, such as the Intel® Edison board and the Intel® Curie™ Compute Module) and Intel gateways to the Amazon Web Servives (AWS) IoT platform.
This access control system application is part of a series of how-to Intel® Internet of Things (IoT) code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, Intel® IoT Gateway, cloud platforms, APIs, and other technologies.
Step-by-step guide on how to develop wi-fi remote control HTML5 applications for mobile phones and use them in IoT applications with NodeMCU and compatible devices (ESP8266 / ESP32)
This article covers and expands upon the material from the Hands-on Lab Intel® Internet of Things (IoT) Developer Kit SFTL005 presented at the Intel® Developer Forum 2015
This smart fire alarm application is part of a series of how-to Internet of Things (IoT) code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, Intel® IoT Gateway, cloud platforms, APIs, and other technologies.
A main challenge to learning Arduino programming is that there is no debugger that will show you what your hardware is actually doing. Learn how easy it is to connect an LCD to write "logging" statements.
In this series of blogs, I will explore the various ways that the Linux capability can be integrated into an Arduino sketch, and how to leverage existing code, to make IoT development much simpler.
In previous blog posts, we’ve built the Mosquitto MQTT broker on Edison and created a sensor node for sensing motion, temperature, and light level. Here, we will connect those sensors and actuators to the Mosquitto MQTT server we’ve built to turn those sensors into true IoT sensors.
This article provides general guidelines for connecting any Intel Internet of Things (IoT) devices (that is, devices that support Intel microcontrollers like the Intel® Edison board and the Intel® Curie™ Compute Module) and Intel® IoT Gateways to the Microsoft Azure IoT Suite.
This article demonstrates how to use an Intel® Next Unit Computing (NUC) device to connect sensors on an Arduino 101 board to the IBM Watson IoT Platform.
This IoT reference implementation builds on the existing Intel® IoT air quality sensor code samples to create a more comprehensive Environment-Monitor solution.
This guide will teach you how to install the Arduino* IDE and connect to your Intel® Edison or Intel® Galileo board on Windows* OS, Mac* OS X, or Linux* OS.
This earthquake detector application is part of a series of how-to Intel® Internet of Things (IoT) code sample exercises using the Intel® IoT Developer Kit, Intel® Edison development platform, cloud platforms, APIs, and other technologies.
This shop-floor equipment activity monitor application is part of a series of how-to Intel Internet of Things (IoT) code sample exercises using the Intel® IoT Developer Kit, Intel® Edison development platform, cloud platforms, APIs, and other technologies.
This Plant Lighting System application is part of a series of how-to Intel® Internet of Things (IoT) code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, Intel® IoT Gateway, cloud platforms, APIs, and other technologies.
This close-call fleet driving reporter application is part of a series of how-to Internet of Things (IoT) code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, Intel® IoT Gateway, cloud platforms, APIs, and other technologies.
MRAA supports GPIO, I2C, PWM, SPI, and UART. There is also a very useful library written on top of MRAA which is an abstraction for individual sensors. It’s called UPM. UPM is supported in Arduino Create for platforms using MRAA.
We cover feature comparison, design considerations and then a comparison of the Intel® Joule™ Developer Kit with the latest IoT developer kit from Intel (UP Squared Grove Development Kit).
In the first post in our series about Internet of Things (IoT) developer journey, we introduced the four stages of IoT development. This post explores the first stage.
This article presents a case study in which the Penang Assembly and Test Operation (PGAT) unit for Intel greatly improved overall production testing performance and facilitated test unit repair by using the Galileo board and associated integrated development environment.
This guide contains troubleshooting information and answers to common questions about programming your Intel® Galileo or Intel® Edison board using the Arduino* IDE.
This guide will teach you how to install the Arduino IDE and connect to your Intel® Edison or Intel® Galileo board on Windows* OS, Mac* OS X, or Linux* OS.
This article shows a method of exploring air quality monitoring by measuring carbon dioxide, volatile organic compounds (VOC), and dust levels using the Arduino* ecosystem and sending the data to a cloud service provider.
In this article are two examples of such applications, one using the Intel RealSense 3D Camera as input and the Intel® Edison board as output, the SDK triggers an LED light on the board.
The Intel® Edison board contains an internal microcontroller unit (MCU) in addition to the CPU. In this article, I explain the benefits of using an internal MCU for both
This smart stove top application is part of a series of how-to Intel IoT code sample exercises using the Intel® IoT Developer Kit, Intel® Edison development platform, cloud platforms, APIs, and other technologies.
The Arduino 101, also known as Genuino 101, is as easy to use as you would expect from an Arduino board. You can use the Arduino IDE, sensor kits, interact with the Arduino community online.
Based on the simple Arduino ZigBee stack, we developed the SCR System, which can detect the real-time environmental situation of a specific room and make a smart schedule for employees, helping to make conference rooms reservations easier and more convenient.
This robot arm application is part of a series of how-to Intel® IoT Technology code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, cloud platforms, APIs, and other technologies.
LinkIt Smart 7688 Duo - a good board for anyone needing to develop quick IoT prototypes that also wish to continue into the manufacturing and delivery phases of their new product.
This smart doorbell application is part of a series of how-to Intel® IoT Technology code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, cloud platforms, APIs, and other technologies.
This range finder scanner application is part of a series of how-to Intel IoT code sample exercises using the Intel® IoT Developer Kit, Intel® Edison development platform, cloud platforms, APIs, and other technologies.
This smart alarm clock application is part of a series of how-to Intel® IoT Technology code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, cloud platforms, APIs, and other technologies.
The first part of this article compares the Arduino 101 platform to the Arduino UNO, giving a baseline for those who aren’t familiar with the Arduino 101 features. The second part dives deeper into the capabilities of the Arduino 101 platform.
This project is about a simple obstacle avoiding robot using Intel® Edison module. Robotics is an exciting and fun hobby that has become very affordable in recent years.
Sharing the same physical shape and pin layout as the UNO board, the Arduino 101 board accepts many of the shields that fit in its predecessor; you can also interchange cases and mounts between the two boards.
Using an Intel® IoT Gateway and an Arduino 101 board, project teams can rapidly adapt existing Intel® IoT path-to-product solutions to address novel business needs.
This sample code uses the Live USB image from the IoT Development Kit to run a host system that can control an Intel® Galileo board using Yocto Application Development Tools and Eclipse*.
This article describes the easiest way to remote control any computer with any infrared remote control that you already have.The idea is to control your music or video player on the computer from your couch. I have seen serveral projects for this purpose in internet but none of them satisfied me.
Build a cheap, under 30€, Weather Station Sensor Node with the help of an Arduino board, and use WiFi connection to control it with any Android device.
This tutorial present a step by step guide for building the ultimate robotic control and information sinking for Arduino Controlled Robots over Internet of Things
This article is a beginners walk through of Developing an IoT framework for Arduino without Ethernet/WiFi shield using ThingSpeak Services with a real time Online Weather Station
Intro and Chapter 1 - In this book, we will learn basic electronics as we build our first circuit, learn what electronic components do and finally build our own devices.
This article presents a case study in which the Penang Assembly and Test Operation (PGAT) unit for Intel greatly improved overall production testing performance and facilitated test unit repair by using the Galileo board and associated integrated development environment.
This guide contains troubleshooting information and answers to common questions about programming your Intel® Galileo or Intel® Edison board using the Arduino* IDE.
This guide will teach you how to install the Arduino IDE and connect to your Intel® Edison or Intel® Galileo board on Windows* OS, Mac* OS X, or Linux* OS.
This article shows a method of exploring air quality monitoring by measuring carbon dioxide, volatile organic compounds (VOC), and dust levels using the Arduino* ecosystem and sending the data to a cloud service provider.
In this article are two examples of such applications, one using the Intel RealSense 3D Camera as input and the Intel® Edison board as output, the SDK triggers an LED light on the board.
The Intel® Edison board contains an internal microcontroller unit (MCU) in addition to the CPU. In this article, I explain the benefits of using an internal MCU for both
This smart stove top application is part of a series of how-to Intel IoT code sample exercises using the Intel® IoT Developer Kit, Intel® Edison development platform, cloud platforms, APIs, and other technologies.
The Arduino 101, also known as Genuino 101, is as easy to use as you would expect from an Arduino board. You can use the Arduino IDE, sensor kits, interact with the Arduino community online.
Based on the simple Arduino ZigBee stack, we developed the SCR System, which can detect the real-time environmental situation of a specific room and make a smart schedule for employees, helping to make conference rooms reservations easier and more convenient.
This robot arm application is part of a series of how-to Intel® IoT Technology code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, cloud platforms, APIs, and other technologies.
LinkIt Smart 7688 Duo - a good board for anyone needing to develop quick IoT prototypes that also wish to continue into the manufacturing and delivery phases of their new product.
This smart doorbell application is part of a series of how-to Intel® IoT Technology code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, cloud platforms, APIs, and other technologies.
This range finder scanner application is part of a series of how-to Intel IoT code sample exercises using the Intel® IoT Developer Kit, Intel® Edison development platform, cloud platforms, APIs, and other technologies.
This smart alarm clock application is part of a series of how-to Intel® IoT Technology code sample exercises using the Intel® IoT Developer Kit, Intel® Edison board, cloud platforms, APIs, and other technologies.
The first part of this article compares the Arduino 101 platform to the Arduino UNO, giving a baseline for those who aren’t familiar with the Arduino 101 features. The second part dives deeper into the capabilities of the Arduino 101 platform.
This project is about a simple obstacle avoiding robot using Intel® Edison module. Robotics is an exciting and fun hobby that has become very affordable in recent years.
Sharing the same physical shape and pin layout as the UNO board, the Arduino 101 board accepts many of the shields that fit in its predecessor; you can also interchange cases and mounts between the two boards.
Using an Intel® IoT Gateway and an Arduino 101 board, project teams can rapidly adapt existing Intel® IoT path-to-product solutions to address novel business needs.
This sample code uses the Live USB image from the IoT Development Kit to run a host system that can control an Intel® Galileo board using Yocto Application Development Tools and Eclipse*.
This article describes the easiest way to remote control any computer with any infrared remote control that you already have.The idea is to control your music or video player on the computer from your couch. I have seen serveral projects for this purpose in internet but none of them satisfied me.
Build a cheap, under 30€, Weather Station Sensor Node with the help of an Arduino board, and use WiFi connection to control it with any Android device.
This tutorial present a step by step guide for building the ultimate robotic control and information sinking for Arduino Controlled Robots over Internet of Things
This article is a beginners walk through of Developing an IoT framework for Arduino without Ethernet/WiFi shield using ThingSpeak Services with a real time Online Weather Station