Watch Out Segway, Here Comes Tilto

June 16, 2011 by 30 Comments

tilto_demo

While the Segway enjoyed a few years of fame before falling off the radar, [Marcelo Fornaso] is hoping his creation has quite a bit more staying power. Inspired by the Segway’s ability to balance itself, he started thinking about how the concept could be improved. He felt that one of the Segway’s shortcomings arose out of the fact that the base platform was rigid and required the user to lean back and forth outside the device’s frame in order to turn it. He thought that this made the riding experience uncomfortable as well as risked causing the rider to fall over.

His creation, the Tilto, aims to both improve on the turning ability of the Segway while eliminating the need for handlebars. Based on a tilting mountain board design he had been tossing around for a while, the Tilto uses accelerometers and gyros to keep its balance, much like the Segway. His goal was to keep the vehicle balanced while traveling forwards and backwards, but also allowing the device to tilt from side to side without tipping over. This design keeps the rider mostly upright, allowing the user to direct the vehicle by leaning much like you would on a bicycle.

As you can see in the video below, the Tilto works pretty well, even in its prototype form.

Finally, a people mover that lets us get our gangsta lean on!

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Watch Hacking, One Day At A Time

April 27, 2011 by 13 Comments

watch_a_day

If there is one thing hackers return to time and time again, it is clock/watch hacking. There are always creative ways to tell time, and with several “hackable” wristwatches on the market, there is bound to be no shortage of neat timepiece hacks.

[hudson] from NYC Resistor has decided to take on a fun challenge for the next month revolving around his programmable inPulse watch. Over the upcoming 30 27 days, he will design, program, and publish a watch face for the timepiece. He already has 3 days behind him, and the results are pretty interesting. The concepts are creative and functional, though due to time constraints they sometimes end up a little less polished than he would like.

All of the code is available on his Bitbucket page if you have an inPulse watch and would like to play along or improve on his work.

We think it’s a pretty cool project, and we are eager to see what he produces each day. Stick around to see a quick video showing off one of his 3D watch faces.

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Papydoo Is Watching You!

April 26, 2011 by 6 Comments

Papydoo spends most of its time sleeping, but if startled by vibration it will wake up and stare you down with a cold and unnerving robo-gaze like you have not seen before. Or it might just do something crazy like display a scrolling Space Invaders character marquee.  That’s the thing with Papydoo, you just never know.

Vibration sensing is accomplished with a piezo element harvested from an old horn speaker that is simply sandwiched between the project enclosure and the surface it is sitting on. A MCP601 op-amp is used to amplify the weak potentials from the piezo element and feed them to the ADC of a Zilog Z8F083A microcontroller. When sufficient vibration is detected, the MCU wakes up and displays one of a number of different animations on the front panel 32X8 LED matrix. The various display modes can also be manually selected using a small button on the back of the enclosure.

Power consumption is reduced to 150uA while sleeping by only briefly waking the MCU once per second to check the current vibration level. Nearly all of this power draw can be attributed to the op-amp, and although there are much more efficient models available, sometimes the best choice is just the one you already have on hand in your parts bin. Regardless, the power consumption is low enough to run the device off of a set of AA batteries.

We could imagine that similar setup could be used for a number of different low-powered messaging applications that would only “wake up” when someone was near enough to read and interact with. Add a loud speaker and this might even make a good alarm to keep pesky coworkers out of your “cube”. What would you do with a Papydoo?

Thanks for the tip [Laurence]! If you happen to read this, we are dying to know: why “Papydoo”?

Short video after the break.

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IPhone Watching Every Breath You Take, Every Move You Make

April 20, 2011 by 89 Comments

iphone_data

Most people tend to enjoy a certain modicum of privacy. Aside from the data we all share willingly on the web in the form of forum posts, Twitter activity, etc., people generally like keeping to themselves.

What would you think then, if you found out your iPhone (or any iDevice with 3G) was tracking and logging your every movement?

That’s exactly what two researchers from the UK are claiming. They state that the phone is constantly logging your location using cell towers, placing the information into a timestamped database. That database is not encrypted, and is copied to your computer each time you sync with iTunes. Additionally, the database is copied back to your new phone should you ever replace your handset.

We understand that many iPhone apps use location awareness to enhance the user experience, and law enforcement officials should be able to pull data from your phone if necessary – we’re totally cool with that. However, when everywhere you have been is secretly logged in plaintext without any sort of notification, we get a bit wary. At the very least, Apple should consider encrypting the file.

While this data is not quite as sensitive as say your Social Security number or bank passwords, it is dangerous in the wrong hands just the same. Even a moderately skilled thief, upon finding or swiping an iPhone, could easily dump the contents and have a robust dataset showing where you live and when you leave – all the makings of a perfect home invasion.

Continue reading to see a fairly long video of the two researchers discussing their findings.

[Image courtesy of Engadget]

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Printable Gripping Rover Is Wristwatch Controlled

March 29, 2011 by 4 Comments

[Lars Kristian Roland] is using a wristwatch to control this rover. The bot itself is a utilitarian build with a gripper based on this Thingiverse project. As you can see in the video after the break, it’s got variable speed control based on accelerometer data from a TI ez430 Chronos wristwatch.

The watch connects to the bot wirelessly thanks to a CC1110 development board which relays communications to the on-board Arduino through a serial connection. It looks like it’s a bit of a bother to make slow and precise movements using this setup, but this can probably be changed by tweaking how accelerometer values are interpreted (using a non-linear equation would allow you more control at low speeds without sacrificing top speed for the motors).

Because this is using the same RF hardware that the IM-ME does, we can’t help but wonder if the CC1110 development board could be swapped out for an unused IM-ME dongle?

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Wristwatch Turntables

March 22, 2011 by 7 Comments

Ever wish you could DJ on the fly while using equipment that your already wearing? Well neither have we but heck now we can, cheaply and easily with the Wristwatch Turntables. While being functional and stylish, this interesting project is fairly easy to construct and if need be, even sports a full function digital watch.

The audio electronics are donated by a pair of talking / musical  greeting cards. Both, “record your own” and “just deal with what we give you” types, though which ones you choose is left up to your taste. The greeting cards are then cut apart for their hidden goodies and then a little circuit bending action is performed to monkey with the amplifier of the sound module.

Potentiometers are added, buttons are relocated, and everything gets housed in a small box, with a wristwatch ran down the middle so you can wear the whole deal and blast your funky beats anywhere you may be. Join us after the break for a quick video.

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Google Two-factor Authentication In A Wristwatch

February 27, 2011 by 13 Comments

chronos_two_factor_authentication

The Chronos watch from Texas Instruments is a handy little piece of hardware if placed in the right hands. If you are not familiar with the platform, it is marketed as a “wearable wireless development system that comes in a sports watch”. In plain English, it’s a wearable wireless MCU mated with a 96 segment LCD, that boasts an integrated pressure sensor and 3-axis accelerometer. It is capable of running custom firmware, which allows it to do just about anything you would like.

[Huan Trong] wanted to take advantage of Google’s new two-factor authentication, and decided his Chronos would make a great fob, since he would likely be wearing the watch most of the time anyhow. He put together some custom firmware that allows the watch to function as an authentication fob, providing the user with a valid Google passcode on command.

He does warn that the software is alpha code at best, stating that it doesn’t even allow the watch to keep time at the moment. We are definitely looking forward to seeing more code in the near future, keep up the great work!

Be sure to stick around to see a video of his watch in action.

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