Recent Blog Posts

Webinar: Introduction to the Intel® IoT Gateway

Join us for the first webinar in the Intel® IoT Commercial Workshop Series. In the opening session, Intel Evangelist Daniel Holmlund will present an Introduction to the Intel® IoT Gateway.

Topics in this session include:

•  How to connect to your Intel® IoT Gateway from your development computer.
•  How to connect to your Intel® Edison board from your development computer using a serial connection.
•  How to connect your Intel® Edison board to your Intel® IoT Gateway’s hotspot.
•  Deploy an application to your Intel® Edison board using the Intel® XDK. 

This webinar will conclude with a Q&A session.      

Date: Thursday, August 11, 2016
Time: 9:00 –10:00 a.m. PST
Presenter: Daniel Holmlund, Intel Corporation
Location: This is an online webinar. To join us, please register today.

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Advanced Computer Concepts for the (Not So) Common Chef: The Multi-core Industrial Kitchen

This is going to be a short blog as there is no new material to discuss, just a simple extension of the earlier blogs (see Advanced Computer Concepts for the (Not So) Common Chef: The Home Kitchen  and Advanced Computer Concepts For The (Not So) Common Chef: Terminology Pt 1) on how the CPU can be viewed as a chef along with her kitchen and recipe book.

A multicore processor, and most current processors such as the Intel® Core 2 generations, are multicore. They can have anywhere from two CPUs/cores to upwards of 60 cores in the Intel® Xeon Phi processor family.

Being a bright and perceptive audience, I’m sure you’ve figured out from this article’s title what kitchen analogy applies to a multi-core processor configuration.

A multi-core processor is equivalent to having multiple kitchens in the same building. Now, these kitchens don’t need to be in separate rooms. They only need to have duplicate equipment, chefs, etc. See Figure INDUSTRIAL_KITCHEN. Note that these kitchens can share pantries, meaning memory, but the distance to different panties may differ depending upon what kitchen is accessing it. (Hint: Can you guess what topic a future blog might have?)

In such an industrial kitchen, several recipes can be prepared and cooked simultaneously by, say, n different chefs. Similarly, in an n-core multi-processor, n programs can execute simultaneously+

Figure INDUSTRIAL_KITCHEN. A large restaurants with two kitchens and two chefs.

Multi-core Kitchen

 

That’s it. Simple enough, right?

NEXT UP: The pipeline! What is the pipeline? It’s the internal workings of a core.

+ This is different from the multi-tasking that modern operating systems, such as Windows*, OS X*, and Linux* do. Multi-tasking emulates multi-processing by switching quickly between multiple tasks/programs giving the impression that multiple programs are running simultaneously even though only one is really running at a time.

 

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Intel® Ultimate Coder Challenge For IoT – Team Update: Proximarket

Team Proximarket Goes Live With IoT Retail Tracking

Editor note: This is the first in a series of interviews with leaders of the five international teams competing in the Intel® Ultimate Coder Challenge 2016.

Selected from among 180 worldwide entries, five global teams are competing in the Intel® Ultimate Coder Challenge for IoT, with a common goal – to use IoT to help solve real problems. Tackling challenges from transportation to healthcare, coders are using unique approaches with Intel® edge and gateway devices and common sensors, motors and switches that you would find within our standard Grove* Sensor Kit. Whichever team’s solution is judged to best address the problem in their vertical will be named winner of the challenge.

Team Proximarket – IoT Retail Shopping Carts

Proximarket is designing highly usable industrial network solutions using proximity technology into new configurations. By leveraging existing concepts like Google’s* Physical Web while complementing exciting technology like the Intel® Curie™ module, Intel® Edison module, and the Dell* IoT Gateway, Proximarket is turning existing proximity concepts on their heads by deploying beacon transmitters on consumer carried shopping carts while mounting receiver circuits on store shelves.

Team Proximarket is a two person partnership between leader Michael Schloh von Bennewitz and István Szmozsánszky. Based in Germany, this team is looking to change how we shop. Not only can a retail store understand shopping habits, but consumers can benefit from instant feedback of customer loyalty rewards as they pass products on the shelves.

Michael Schloh von Bennewitz is a computer scientist specializing in network engineering, embedded design, and mobile platform development. Responsible for research, development, and maintenance of packages in several community software repositories, he actively contributes to the Opensource development community. Michael speaks four languages fluently and presents or teaches at technical events every year, and has worked with groups including Cable & Wireless*, Nokia*, Mozilla*, Ubuntu*, ARIN*, Droidcon*, AstriCon*, Minix*, the Mobile World Congress*, and Dockercon*. Michael’s IoT knowlege profits from years of work at telecoms and relationships with industry leaders. He is a developer on the Smartcart project and Intel innovator with the mandate to promote IoT technology.

Q: What does this project mean to you and your team?

A: This project is the pilot service offering of a startup seeking investment and as such carries business interest and personal interest alike. We’re trying to serve store vendors trying to assist family run shops as well as large brick and mortar stores to compete with Internet warehouse operations. We’re also trying to give consumers tools in shopping wisely and avoiding invasive tracking while maintaining the benefits of customer loyalty programs.

Q: Describe the sensors you’re using and any challenges with them?

A: Our service is proximity based, so we’re programming the nRF51822 Bluetooth* Smart circuit in Intel® Curie™ modules to act as a proximity sensor. We’re also using identity tagging of products on shelves and reading them as they’re placed in shopping carts, so for that we use RFID or more likely NFC RF sensors. Lastly, we sense battery discharge and generator voltage to calculate device life of a Smartcart and alert management when individual carts can’t be used and must be recharged.

Q: What software, programming languages, and cloud services are you using and why?

A: We’re using NodeJS* as much as possible due to the stable nature and selection of NPM libraries, particularly good IoT relevant technology support, and rapid prototyping workflow. We’re also using C11 in order to take advantage of the Intel® Curie™ module libraries developed for Zephyr*, which will be our platform of choice when programming Intel® Curie™ module based devices like the Smartcart. We’ll avoid Cloud connectivity, but are definitely testing to see how much utility we’ll lose by this. Our cloud platform of choice is Microsoft Azure*.

Q: Share any challenges, funny stories and solutions that you’ve encountered so far.

A: We actually have not received any of the hardware parts needed to implement our design, so this has forced us to reallocate most our research and development time to searching for sponsors of parts. We have almost half of what is needed to create a Smartcart prototype now, as sponsors come forth and deliver their pledged hardware.

Teamwork while Traveling

We also overestimated the timeliness of the challenge. While it was delayed a few months, our obligations remained constant. This is rather funny, because our summertime obligations consisted of almost perpetual travel. We’ve been trying to work on the design at the same time and at the same place by meeting in random airports or nearby cities where we plan to land.

Regarding solutions, we’re sad to see the Intel® Curie™ modules packaged in Arduino* boards, but happy that they are finally on the market. A solution including the Intel-hosted Zephyr* RTOS is not included in what we received, but we were able to secure a pledge for a partially sponsored JTAG programmer. This device is due to arrive at the end of July and will allow us to finally implement our Smartcart prototype in C11 on Zephyr*. That will be an ultimate solution indeed.

Q: What data are you feeding to the cloud, and how are you using it in your solution?

A: We hope to integrate Smartcart in some niche situations as well as third world countries where little expertise exists relating to cloud logic. We also find problems in explaining data jurisdiction and keeping with data control laws. Lastly, we like the idea of allowing large shops like Costco* to maintain their own internal infrastructure with Redhat* Origin or Openstack, rather than dictate which cloud platform they use.

That being said, we are exploring both MQTT and AMQP interfaces to Microsoft Azure*. Microsoft* has acted in good faith lately, reversing their long term abuse of consumer liberty. On top of that, we’re fans of their cloud technology for technical reasons, and they offer a reasonably priced IoT Hub framework which supports the two protocols we like to use, namely MQTT and AMQP.

Challenge Winners Announced in August

The teams have been steadily coding, wiring and assembling their projects. In the final phase, teams will make final presentations, demonstration videos and display the prototypes that were produced. Follow the Ultimate Coder site showing current progress, pictures of their products, and comments from fans and judges. Judging begins in August with the winners announced soon after.

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Trending on IoT: Our Most Popular Intel® IoT Developer Stories for July

IoT Kit

1.  Intel® XDK User Guide

Create applications for your Internet of Things (IoT) board using the Intel® XDK User Guide and templates.


Intel® Curie™ Compute Module

2.  What the Intel® Curie™ Compute Module Means to Makers

Learn about the Intel® Curie™ module, which is an Intel® Quark™ system on a chip that provides a complete low-power solution for wearable devices and consumer or industrial edge products.


 Arduino 101*

3.  Getting Started With Node-RED* and Arduino 101* with the Grove* Shield

Find out how to get started with Node-RED* and Arduino 101* (branded Genuino 101* outside the U.S.) using the Grove* Shield.


User Guide for C++

4.  Intel® System Studio IoT Edition User Guide for C/C++

Learn to work with Internet of Things (IoT) projects in C/C++ using the Intel® System Studio IoT Edition.


User Guide for Java

5.  Intel® System Studio IoT Edition User Guide for Java*

Use this step-by-step guide to work with IoT projects in Java* using the Intel® System Studio IoT Edition.


Node Red*

6.  Connecting an Intel® IoT Gateway to IBM Watson*

Follow this quick guide to add the IoT cloud repository to the Intel® IoT Gateway and add support for IBM Watson*. You can start developing applications for this platform in your preferred programming language.


 Intel® NUC

7.  Sensor to Cloud: Connecting the Intel® NUC and Arduino 101* board to the IBM Watson* IoT Platform

Learn how to use an Intel® NUC device to connect sensors on an Arduino 101* board to the IBM Watson* IoT Platform.


Smart Home

8.  IoT Path-to-Product: Smart Home  

There is value in building smart home solutions using standards-based, open platforms. These guidelines can help you create your own smart home project.


IoT Development Made Easy

9.  IoT Development Made Easy

Find out about the collaboration between Intel and IBM to provide professional developers with a complete set of development tools for IoT from edge to cloud.


Smart Home Prototype

10.  IoT Path-to-Product: How to Build the Smart Home Prototype

Follow the steps in the exercise described in this article to create your own IoT solution prototype.


Our team of software developers, experts, partners and enthusiasts have continuously shared innovative and exciting ideas in the Intel® IoT Developer Zone. This month we’ve compiled a list of our most popular IoT stories to guide you through the latest projects in the IoT space. Miss last month? Go to June IoT to catch up.

Top Ten IoT

 

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Three reasons why developers should care about OpenStack

Why should developers care about OpenStack? Does it really affect their work adding features, debugging code, improving performance, generally pleasing their customers? (Or at least making them less pissed off). Sure, cloud computing is a Big Deal. But isn’t the … Read more >

The post Three reasons why developers should care about OpenStack appeared first on Intel Software and Services.

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UX Designer Pete Denman’s Talents Led Him to Stephen Hawking. His Success Shattered Myths and Broke Down Barriers.

When Pete Denman, at age 20, broke his neck in a diving accident that left him paralyzed and in a wheelchair, he knew the event would alter the course of his life. But he couldn’t have imagined that his new … Read more >

The post UX Designer Pete Denman’s Talents Led Him to Stephen Hawking. His Success Shattered Myths and Broke Down Barriers. appeared first on Jobs@Intel Blog.

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Portugal continues on the successful path towards broadband market deregulation

Portugal continues on the successful path towards broadband market deregulation In its most recent market analysis – just submitted to the European Commission – the Portuguese regulator (ANACOM) decided, based on its assessment of market conditions, the proportionality of obligations … Read more >

The post Portugal continues on the successful path towards broadband market deregulation appeared first on Policy@Intel.

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