PrefaceThis tutorial assumes some background knowledge of programming, but no prior experience with Raspbian (or any Linux distribution), GPIO microprocessors (Pi, Arduino, etc), or Python. References may be made to previous tutorials.
This tutorial assumes some background knowledge of programming, but no prior experience with Raspbian (or any Linux distribution), GPIO microprocessors (Pi, Arduino, etc.), or Python. References may be made to previous tutorials.
Zenodys is Visual Development Tool, sandboxed execution environment and decentralized marketplace of digital assets. These aspects might seems unrelated at first sight, but properly combined together they create a marketplace where everyone, regardless of programming skills, are able to trade their digital assets.
For example, non developers can easily create applications with just drag’n’dropping visual icons and setting their properties inside Visual Development Tool. Applications can gather data from their devices and other sources and are executed off-chain inside sandboxed execution environment. Gathered digital assets are then published on distributed Digital Assets Marketplace.
Applications on consumer side are similar to ones on supply side. But instead of publishing digital assets to marketplace, they deliver purchased digital assets from marketplace.
Visual Development Tool is browser based IDE for visually connecting microservices (Elements). Created visual scripts are then executed by orchestration tool (Computing Engine) on edge devices in sandboxed execution environment.
Getting started with Arduino programming can seem like a daunting task. In addition to learning the ins and outs of writing Arduino code in C, you usually also have to assemble electronic parts using a breadboard. This can feeel overwhelming to an experienced programmer who’s trying to take his or her first step into the Arduino world.
Set up an Azure IoT Hub and connect to it via Raspberry Pi 3.
This article will guide you through creating a simulated Arduino project connected to a breadboard using Tinkercad
Setting Up a Time Series for Sensor Data Using Amazon Web Services (AWS) Greengrass and the UP Squared Board
This article explores the method for setting up a time series for sensor data using the UP Squared board and Grove shield, the Amazon Web Services (AWS) Greengrass, and Plotly.
Webinar: Software Defined Sensors and Protocols
Processing the positioning information of visual objects detected by Pixy camera and received on Raspberry Pi via I2C, and using common design patterns in a C# program parsing robotics sensor data
This article will explore a proof of concept that leverages the capabilities of Helix Device Cloud (HDC) and uses the UP Squared board as the vending machine gateway.
IoT Developer Show
This guide shows the steps to start Amazon Web Services (AWS) Greengrass core on Ubuntu using the UP Squared development board.
With the Levaux SenseAgent and Intel-based IoT gateway, building managers have the insight to maximize efficiency, proactively address maintenance, optimize environments, and improve occupant wellness and productivity.
The Retail Workshop: Hands on Learning with Intel®-based Retail Solutions
Cut Energy Costs with a Smart Real-Time Occupancy Solution from Feedback Solutions and Intel
This article presents use cases and provides examples which make use of the Intel® Math Kernel Library (Intel® MKL)
In many manufacturing plants today, monitoring is a highly manual process. FOURDOTONE Teknoloji analyzes data from sensors to enable manufacturers to respond immediately to problems, and predict when machines are likely to fail.
Integrated IoT building blocks enable a future-proofed design that also reduces development time, complexity, and the risk associated with investment.
In this article we analyse the industry 4.0 possibilities and we will show how it is possible to make IIoT a semi-automatic machinery managed mainly by people.
This storage unit flood detector application is part of a series of how-to Internet of Things (IoT) code sample exercises using the Intel® IoT Developer Kit and a compatible Intel-based platform, cloud platforms, APIs, and other technologies.
An embryo for Home Intelligence using Raspberry Pi with Linux.
IoT.Starter.Pi.Thing powered by Linux Infrared Remote Control
IoT Starter Pi Core develops an ASP.NET Core Web Service for Raspberry Pi automatically generated by Swagger Hub.
The SDK includes components to develop applications: IDE integration, offline compiler, debugger, and other tools.
Intel just released Intel® System Studio 2018, an all-in-one, cross-platform, comprehensive tool suite for system and IoT device application development.
Troubleshooting Connections with the UP Squared Grove IoT Development Kit and Arduino Create
In this paper we focus on how Vehicle-to-Infrastructure connectivity can help to optimize city traffic for emergency vehicles, and provide personalized treatment to patients in need.
In this article, we give an overview of the SAWR project and also offer some tips for building your own robot using the Intel RealSense camera and SAWR projects.
Compose microservices at Raspberry Pi with Linux & .NET Core to start an IoT initiative right now.
This article discusses fatigue detection systems.