検索ワード

ブログ

トラデックスのブログは、お客様から寄せられた洞察や新情報を集約しており、トラデックス製品のポートフォリオや多くの利点を深く理解するのに役立ちます。 加えて、開発の流れに取り残されることがないように、トレンドやツールの要点が述べられています。

Starting with OpenCV on i.MX 6 processors


2017年11月22日水曜日

ColibriApalisComputer vision (CV) has been a field of study that is expanding its boundaries every day. This blog post is an introduction to the use of computer vision in embedded systems, by employing the OpenCV 2.4 and 3.1 versions in Computer on Modules (CoMs) equipped with NXP's i.MX 6 processors. The CoMs chosen were the Colibri and Apalis families from Toradex.

Cloud-Aided Yocto Build Speedup


2017年8月21日月曜日

Cloud services have been a reality for some years already. Right now, one of the biggest concepts in the field is the Internet of Things, or IoT for short. When we electronics folk think of the cloud, the first thing that comes to our minds is connecting several devices to it and uploading data to be visualized, stored and analyzed - among other possibilities. Of course, other uses may come to mind, too.

One thing we don't always realize is that the cloud can be much more than simply an IoT tool, or something only large corporations have access to. We can make use of the cloud for everyday tasks, too. As a matter of fact, that's the motivation behind this article - taking a time-consuming task and using the cloud to simplify our lives a little!

Developing Real-Time Systems on Application Processors


2017年2月8日水曜日

LinuxTraditionally, microcontrollers are used for systems with deterministic real-time response. With the increasing need for higher performance, exciting UI and high-speed connectivity in end-products, many system designers are inclined to use application processors or SoCs with a feature-rich OS, a combination that may compromise real-time response. In this blog post, we present three approaches to add real-time behaviour in SoC-based designs.

Patching Kernel in OpenEmbedded


2017年1月12日木曜日

Linux

Despite OpenEmbedded/Yocto being nice tools to generate your image, using the build system to compile and test tiny alterations applied to independent packages, although possible, can become confusing and slow. Read this post for details on the author's suggestion on how to alter the kernel and add the changes to OpenEmbedded/Yocto.

Azure IoT Hub on a Toradex Colibri VF61 – Part 3: Using cloud services to collect business intelligence


2016年8月18日木曜日

Colibri

This is the third – and final – part of a series of articles introducing how to start developing an IoT solution. It focuses on using the cloud services provided by Azure to provide easily understandable data visualization and business intelligence. The embedded system chosen for this purpose was a Toradex customized SBC solution: the Colibri VF61 SoM + the Iris Carrier Board.

Azure IoT Hub on a Toradex Colibri VF61 – Part 2: Interfacing sensors and the IoT Car


2016年7月5日火曜日

Colibri

This is the second part in a series of three articles focused on the development of an IoT application. It goes on about the reading of sensors and sending of gathered data to the cloud. The embedded system chosen for this purpose was a Toradex customized SBC solution: the Colibri VF61 SoM + the Iris Carrier Board.

Azure IoT Hub on a Toradex Colibri VF61 – Part 1: Sending data to the cloud


2016年6月7日火曜日

Colibri

The concept of the Internet of Things is intrinsically related to the sending of data to the internet and its so called cloud services. People from the electronics field are everyday more easily connecting devices to the cloud as the evolution of technology is allowing the use of smaller and less power-consuming electronics as time goes by. Still there is an unanswered question for many of these electronics developers: how to make all of the gathered data useful? Because that is what the Internet of Things is about.

Using Node.js and the Express Framework to Access the Colibri VF61 GPIO via Web


2016年4月25日月曜日

ColibriThis article is meant for anyone who wishes to quickly start developing an embedded Linux web application with access to the hardware GPIO, so that the user can control and/or monitor a system remotely. The application developed here, is based on the Colibri VF61 CoM (Computer on Module) by Toradex + the Iris Carrier Board, and a PCB with LEDs and switches. The main goals are to walk the reader through the process of developing Node code for accessing the GPIO via filesystem, building a simple yet user-friendly UI, and using the Express framework for hosting a minimal webserver that communicates with the client-side application by AJAX calls.