embdSocial™ is an Internet-of-Things (IoT) platform usable to provide communication support to smart objects and devices. embdSocial™ is based on WISP™, an electronic module that can be connected to any microcontroller-equipped device (such as an Arduino board, by means of ad-hoc shield) to exploit several communication services:

Each WISP™ allows real-time bi-directional communication through our secure, globally accessible API. In addition to merely providing internet connectivity, embdSocial™ provides one interface and architecture that simplifies common tasks through the use of plug-ins:

• Tweeting/receiving @messages
• Updating Facebook statuses
• Sending/receiving emails
• Sending/receiving SMS text messages
• Manipulating files in your Dropbox

Each WISP™ is equipped with a 802.11 network interface (with support to WEP, WPA and WPA2 protocols) which allows the device to be easily connected with the embdSocial™’s servers; moreover, its configuration is completely web-based.

More information can be found on the embdSocial™ homepage, together with a couple of videos presenting its capabilities.

[Via: HackADay and embdSocial]

Prototyping my home automation system i ran into troubles. I can’t make work two SPI devices on Arduino Mega. One is an ethernet shield based on enc28J60 made by ekitszone, other is a small module based on Nordic’s nRF24L01+ transceiver. Spot the problem without an oscilloscope was really frustrating, oscilloscopes are not hacker’s best friends for nothing. After checking and rechecking solder joints, my code, astral conjunctions, finally i found the real problem. Trivially MOSI and MISO on ethernet shiled are reversed. Detaching the shield from Arduino and using a breadboard to invert MOSI (pin 51) and MISO (pin 50) make everything work (to be true, my code doesn’t use ethernet yet but the transreceiver works like a charm now). I don’t know which batches are affected but if you are in trouble with these shield using enc28J60 datasheet and a tester try to figure out if this is your situation. Happy hacking.

Prototyping my home automation system i ran into troubles. I can’t make work two SPI devices on Arduino Mega. One is an ethernet shield based on enc28J60 made by ekitszone, other is a small module based on Nordic’s nRF24L01+ transceiver. Spot the problem without an oscilloscope was really frustrating, oscilloscopes are not hacker’s best friends for nothing. After checking and rechecking solder joints, my code, astral conjunctions, finally i found the real problem. Trivially MOSI and MISO signals of SPI bus on ethernet shiled are reversed. Detaching the shield from Arduino and using a breadboard to invert MOSI (pin 51) and MISO (pin 50) make everything work (to be true, my code doesn’t use ethernet yet but the transreceiver works like a charm now). I don’t know which batches are affected but if you are in trouble with these shield using enc28J60 datasheet and a tester try to figure out if this is your situation. Happy hacking.

While browsing Hacker News, I came across this interesting account of Andrei Pop [blog, twitter] which tells about how he won a recent Facebook hackathon using an arduino hack.

It is a recent trend that hardware too has entered the hackathon scenario. Here are interesting excerpts from his honest account!

A few months ago 3 friends and I participated in the facebook hackathon at UBC. It was a 36 hour, redbull-fueled affair in which quite a few teams participated. We won. I’m not telling you this story to brag, I want to share with you what I learned. In all honesty, I was shocked we won, but I think that sticking to a couple of principles helped:

1. Don’t compete with your second best arsenal

2. Solve a real problem

3. Breadth instead of depth can pay off

Yes, you’ve heard this advice before and there are exceptions to every rule… I’m just sharing my personal experience.

Our team consisted of a designer, a biomedical engineer (who didn’t write a single line of code), a CS student (without a doubt the most “qualified” of all of us), and myself (a Political Science grad). I was the only non-engineering-educated person in the room. One essential lesson I have learned over and over in life is that it is futile to compete on a metric that you cannot possibly be the best at. Don’t compete with your second best arsenal. You need to find the edge that nobody else will think of, or where nobody else can be. If the competition can outspend you, outmanouever them. If the guy at the bar is better looking, be funnier. And if most of the guys in the room have PhDs in CS, go for hardware?

The night before the hackathon I picked up an arduino microcontroller, a few LEDs, some alligator clips, and a breadboard. I didn’t really know how things would come together, but I had spent some time hardware hacking and I was really interested in physical computing. I also figured that most of the guys in the room wouldn’t be thinking about hardware (this was a facebook hackathon, most people were looking up the Open Graph API). I hoped hardware would be our edge, and as it turns out, it was.

After a bit of brainstorming and chinese food we agreed to build Locksmasher – an arduino powered unlocking mechanism that would handle authentication through the Open Graph API. We wanted to create a way to grant one-time access to facebook friends that need to get into your house.

Half an hour into our brainstorming, one of my team members had to leave the hackathon to let a friend into his house. This event sparked the idea of locksmasher and outlines my second point – solve a real problem. A craft for a craft’s sake can often be futile. There are definitely exceptions to this, but most of the time, start with a defined problem and apply your craft, instead of the other way around. The judges loved that they could personally relate to the problem of needing to let someone into their house when they weren’t home.

Our hack was very simple – it was nothing more than a glorified switch that talked to facebook. Graeham (our biomedical engineer) hooked up an old door lock to the arduino for our demo. Yazad (the CS student) and I wrote a NodeJS server to talk to facebook. We spent most of our time dealing with authentication, a problem that could have been solved in a few hours by a better hacker who knows the facebook API well. In the meantime Vince (our designer) made everything look very beautiful. This brings me to my last point point, sometimes breadth is better than depth. I want to credit a tremendous amount of our success to Vince’s design work and Graeham’s hardware. By the end of the 36 hours, we had addressed a little bit of everything.

Most of the hackers in the room built some very elegant projects; machine learning algorithms, recommendation algorithms based on your friends likes, data parsing applications. However many of the projects were elegant for elegance sake and didn’t solve a pain point that the judges could relate to. Furthermore, they didn’t look at the whole package (arguably not necessary for a hackathon but I certainly think our sleek UI helped win over the crowd).

It easily highlights arduino’s adaptability to hooking with various technologies. It truly comes out as the bridge between hardware and software.

The project demo lies here.

Any hackathons worldwide in which our readers have used their Arduino? Please do link the demo or your blog We would love to read!

Via:[dedigncodelearn,HackerNews]

Touché is a capacitive-sensing technology, developed by Walt Disney Research, which aims at providing touch and gesture sensitivity to a great variety of objects. From this research paper:

The technology is  scalable, i.e., the same sensor is equally effective for a pencil, a doorknob, a mobile phone or a table. Gesture recognition also scales with objects: a Touché enhanced doorknob can capture the configuration of fingers touching it, while a table can track the posture of the entire user.

En este nuevo tutorial Arduino by ARDUTEKA, estudiamos a fondo los módulos GPS, en concreto los módulos diseñados por LIBELIUM, para aprender a extraer y comprender todas las tramadas de datos que recibimos de los GPS y posteriormente, tratar esa información para mostrar en un display con bus i2C datos como la latitud, longitud, altura y hora UTC…

[Via: Arduteka]

Arduteka lanza su último tutorial!

En él nos descubre el nuevo módulo 3G para Arduino de Cooking Hacks con el que podremos construir una divertida alarma que nos enviará la foto de nuestro intruso directamente a nuestro correo, además de avisarnos por un mensaje sms a nuestro teléfono móvil sin necesidad de tener conectado nuestro Arduino a internet constantemente, pues lo hace todo a través de la red móvil.

Vamos a construirnos una alarma totalmente casera, a través del sensor de ultrasonidos, escanearemos continuamente el espacio situado enfrente suyo con un radio aproximado de 30º, cuando algún objeto o persona se sitúe en su campo de actuación a una distancia inferior a la que establezcamos, haremos sonar una alarma, tomaremos una fotografía, el Led RGB que antes estaba verde, pasará a color azul y daremos 10 segundos para poder desactivar la alarma a través de nuestro teclado matricial, si la desactivamos, volverá de nuevo a escanear el campo, pero si no!! Reproducirá un sonido contundente y se dispondrá a mandarnos un sms a nuestro teléfono móvil y la fotografía a nuestro correo electrónico.

Via:[Arduteka]

Want a timed egg thrower? Or a thrower triggered by motion?

A step-by-step instruction on how to make your own Arduino controlled catapult is here.

Looks like it can be built over a weekend!

Via:[Instructables]

Happy to see the KegBot Project adding a new fancy Android shell as casing.

“If you are looking for an exciting hardware project, KegDroid deserves a look. It is a sophisticated system that involves Android, Arduino, NFC, plumbing and — beer. Perhaps the final stroke of genius is to package the whole thing in a Droid body. Some how the little green fella looks at home on the bar. You have heard of desktop and laptop apps now we have bartop apps to add to the list“

via [SlashDot]