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How-To Intel IoT Code Samples: Doorbell

From this exercise, developers will learn how to: Connect the Intel® Edison development platform, a computing platform designed for prototyping and producing IoT and wearable computing products. Interface with the Intel® Edison platform IO and sensor repository using MRAA and UPM from the Intel® IoT Developer Kit, a complete hardware and software solution to help developers explore the IoT and implement innovative projects. Run this code sample in Intel® XDK IoT Edition, an IDE for creating applications that interact with sensors and actuators, enabling a quick start for developing software for the Intel® Edison or Intel® Galileo board. Store the doorbell ring data using Azure Redis Cache* from Microsoft* Azure*, cloud services for connecting IoT solutions including data analysis, machine learning, and a variety of productivity tools to simplify the process of connecting your sensors to the cloud and getting your IoT project up and running quickly.
  • Разработчики
  • Для профессионалов
  • Проект Yocto
  • HTML5
  • Интернет вещей
  • HTML5
  • JavaScript*
  • Node.js*
  • Продвинутый
  • Начинающий
  • Средний
  • Bluetooth*
  • Wi-Fi*
  • Распределенные вычисления
  • Инструменты для разработки
  • Интернет вещей
  • Датчики
  • How-To Intel IoT Code Samples: Close Call Reporter

    From this exercise, developers will learn how to: Connect the Intel® Edison development platform, a computing platform designed for prototyping and producing IoT and wearable computing products. Interface with the Intel® Edison platform IO and sensor repository using MRAA and UPM from the Intel® IoT Developer Kit, a complete hardware and software solution to help developers explore the IoT and implement innovative projects. Run this code sample in Intel® XDK IoT Edition, an IDE for creating applications that interact with sensors and actuators, enabling a quick start for developing software for the Intel® Edison or Intel® Galileo board. Store the close-call data using Azure Redis Cache* from Microsoft* Azure*, cloud services for connecting IoT solutions including data analysis, machine learning, and a variety of productivity tools to simplify the process of connecting your sensors to the cloud and getting your IoT project up and running quickly.
  • Разработчики
  • Для профессионалов
  • Проект Yocto
  • HTML5
  • Интернет вещей
  • HTML5
  • JavaScript*
  • Node.js*
  • Продвинутый
  • Начинающий
  • Средний
  • Bluetooth*
  • Wi-Fi*
  • Распределенные вычисления
  • Инструменты для разработки
  • Интернет вещей
  • Датчики
  • How-To Intel IoT Code Samples: BLE Scan Bracelet

    From this exercise, developers will learn how to: Connect the Intel® Edison development platform, a computing platform designed for prototyping and producing IoT and wearable computing products. Interface with the Intel® Edison platform IO and sensor repository using MRAA and UPM from the Intel® IoT Developer Kit, a complete hardware and software solution to help developers explore the IoT and implement innovative projects. Run this code sample in Intel® XDK IoT Edition, an IDE for creating applications that interact with sensors and actuators, enabling a quick start for developing software for the Intel® Edison or Intel® Galileo board. Store detected BLE devices using Azure Redis Cache* from Microsoft* Azure*, cloud services for connecting IoT solutions including data analysis, machine learning, and a variety of productivity tools to simplify the process of connecting your sensors to the cloud and getting your IoT project up and running quickly.
  • Разработчики
  • Для профессионалов
  • Проект Yocto
  • HTML5
  • Интернет вещей
  • HTML5
  • JavaScript*
  • Node.js*
  • Продвинутый
  • Начинающий
  • Средний
  • Bluetooth*
  • Wi-Fi*
  • Распределенные вычисления
  • Инструменты для разработки
  • Интернет вещей
  • Датчики
  • How-To Intel IoT Code Samples: Alarm Clock

    From this exercise, developers will learn how to: Connect the Intel® Edison development platform, a computing platform designed for prototyping and producing IoT and wearable computing products. Interface with the Intel® Edison platform IO and sensor repository using MRAA and UPM from the Intel® IoT Developer Kit, a complete hardware and software solution to help developers explore the IoT and implement innovative projects. Run this code sample in Intel® XDK IoT Edition, an IDE for creating applications that interact with sensors and actuators, enabling a quick start for developing software for the Intel® Edison or Intel® Galileo board. Set up a web application server to set the alarm time and store this alarm data using Azure Redis Cache* from Microsoft* Azure*, cloud services for connecting IoT solutions including data analysis, machine learning, and a variety of productivity tools to simplify the process of connecting your sensors to the cloud and getting your IoT project up and running quickly. Invoke the services of the Weather Underground* API for accessing weather data.
  • Разработчики
  • Для профессионалов
  • Проект Yocto
  • HTML5
  • Интернет вещей
  • HTML5
  • JavaScript*
  • Node.js*
  • Продвинутый
  • Начинающий
  • Средний
  • Bluetooth*
  • Wi-Fi*
  • Распределенные вычисления
  • Инструменты для разработки
  • Интернет вещей
  • Датчики
  • How-To Intel IoT Code Samples: Air Quality Sensor

    From this exercise, developers will learn how to: Connect the Intel® Edison development platform, a computing platform designed for prototyping and producing IoT and wearable computing products. Interface with the Intel® Edison platform IO and sensor repository using MRAA and UPM from the Intel® IoT Developer Kit, a complete hardware and software solution to help developers explore the IoT and implement innovative projects. Run this code sample in Intel® XDK IoT Edition, an IDE for creating applications that interact with sensors and actuators, enabling a quick start for developing software for the Intel® Edison or Intel® Galileo board. Store air quality data using Azure Redis Cache* from Microsoft* Azure*, cloud services for connecting IoT solutions including data analysis, machine learning, and a variety of productivity tools to simplify the process of connecting your sensors to the cloud and getting your IoT project up and running quickly.
  • Разработчики
  • Для профессионалов
  • Проект Yocto
  • HTML5
  • Интернет вещей
  • HTML5
  • JavaScript*
  • Node.js*
  • Продвинутый
  • Начинающий
  • Средний
  • Bluetooth*
  • Wi-Fi*
  • Распределенные вычисления
  • Инструменты для разработки
  • Интернет вещей
  • Датчики
  • How-To Intel IoT Code Samples: Access Control

    From this exercise, developers will learn how to: Connect the Intel® Edison development platform, a computing platform designed for prototyping and producing IoT and wearable computing products. Interface with the Intel® Edison platform IO and sensor repository using MRAA and UPM from the Intel® IoT Developer Kit, a complete hardware and software solution to help developers explore the IoT and implement innovative projects. Run this code sample in Intel® XDK IoT Edition, an IDE for creating applications that interact with sensors and actuators, enabling a quick start for developing software for the Intel® Edison or Intel® Galileo board. Set up a web application server to let users enter the access code to disable the alarm system and store this alarm data using Azure Redis Cache* from Microsoft* Azure*, cloud services for connecting IoT solutions including data analysis, machine learning, and a variety of productivity tools to simplify the process of connecting your sensors to the cloud and getting your IoT project up and running quickly.
  • Разработчики
  • Для профессионалов
  • Проект Yocto
  • HTML5
  • Интернет вещей
  • HTML5
  • JavaScript*
  • Node.js*
  • Продвинутый
  • Начинающий
  • Средний
  • Bluetooth*
  • Wi-Fi*
  • Распределенные вычисления
  • Инструменты для разработки
  • Интернет вещей
  • Датчики
  • My Experiences at IDF 2015 as a Black Belt Developer: Intel® Realsense™ Booths

    This year, I saw both the current marketed Intel® RealSense™ product and the just released short and long range cameras. I’m told it uses coded light technology (pretty neat in itself) that couples a passive visible light camera with an active IR camera/sensor. The visible light camera takes a traditional picture, while the active IR camera determines the distance to the various objects. From what I’m told, the newer short range Intel® RealSense™ camera has a gesture tracking range of between 0.2 m and 0.6 m.

    Announcing Intel® IoT Developer Kit v2.0 with Java* Support

    We are pleased to announce the release of Intel® IoT Developer Kit v2.0, now with full Java* support! We've added new installers, additional sensors support, updated IDEs, as well as a number of enhancements, bug fixes and improved usability. The software components are available now for immediate download on the Software Downloads page.
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