Ears To You: Sensing Facial Expressions With An Ear Plug

May 24, 2018 by Al Williams 8 Comments

Electronics keep getting smaller, but human fingers don’t. This leads to a real challenge with highly-embedded wearable computers. Sure, voice command has come a long way, but it has its own challenges. You might not want to verbally command your Borg implants in some situations. Maybe you need to be quiet. Or perhaps you are worried about accidentally triggering the device. Researchers in Germany want to monitor facial expressions instead. So to snap a picture, you might wink and to fast forward your movie playing on the inside of your eyelids, perhaps you’d look to the right twice. You can see a video presentation about the paper, below.

The paper looks at several different methods to read facial movements. Some were pretty intrusive. However, a promising technique used Ear Field Sensing (EarFS). An earplug with an electrode senses electrical changes in the ear canal resulting from facial muscle movement. Other techniques examined included electromyography, capacitive sensing, and a different form of electrical field sensing.

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HairIO: An Interactive Extension Of The Self

March 29, 2018 by Kristina Panos 19 Comments

Most of what we see on the wearable tech front is built around traditional textiles, like adding turn signals to a jacket for safer bike riding, or wiring up a scarf with RGB LEDs and a color sensor to make it match any outfit. Although we’ve seen the odd light-up hair accessory here and there, we’ve never seen anything quite like these Bluetooth-enabled, shape-shifting, touch-sensing hair extensions created by UC Berkeley students [Sarah], [Molly], and [Christine].

HairIO is based on the idea that hair is an important part of self-expression, and that it can be a natural platform for sandboxing wearable interactivity. Each hair extension is braided up with nitinol wire, which holds one shape at room temperature and changes to a different shape when heated. The idea is that you could walk around with a straight braid that curls up when you get a text, or lifts up to guide the way when a friend sends directions. You could even use the braid to wrap up your hair in a bun for work, and then literally let it down at 5:00 by sending a signal to straighten out the braid. There’s a slick video after the break that demonstrates the possibilities.

HairIO is controlled with an Arduino Nano and a custom PCB that combines the Nano, a Bluetooth module, and BJTs that drive the braid. Each braid circuit also has a thermistor to keep the heat under control. The team also adapted the swept-frequency capacitive sensing of Disney’s Touché project to make HairIO extensions respond to complex touches. Our favorite part has to be that they chalked some of the artificial tresses with thermochromic pigment powder so they change color with heat. Makes us wish we still had our Hypercolor t-shirt.

Nitinol wire is nifty stuff. You can use it to retract the landing gear on an RC plane, or make a marker dance to Duke Nukem.

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Friday Hack Chat: Fashion! (Turn To The Left)

January 17, 2018 by Brian Benchoff 9 Comments

An underappreciated facet of the maker movement is wearable technology. For this week’s Hack Chat, we’re going to be talking all about wearable and fashion tech. This includes motors, lighting, biofeedback, and one significantly overlooked aspect of wearables, washability.

For this week’s Hack Chat, we’re sitting down with Kathryn Blair and Shannon Hoover to talk about the workability and washability of fashion tech. Over the last decade or so, wearable tech has become ever more popular, and these advances in the science aren’t just limited to amazing outfits lined with hundreds of Neopixels. Now, we’re dealing with biofeedback, clothing that regulates your body temperature monitors your vital signs, and necklaces that glow when the sun goes down.

Kathryn and Shannon are part of the team behind MakeFashion, a Calgary-based outfit that has produced over 60 wearable tech garments shown at 40 international events. MakeFashion is introducing designers to wearables through a series of hands-on workshops built around developing wearable electronics and electronic wearables.

One of the key technologies behind MakeFashion is the StitchKit, a development kit that’s now available on Kickstarter designed to add electronics to wearables. This means everything from uglier Christmas sweaters to interactive clothing.

During this Hack Chat, we’re going to be discussing the design and engineering behind fashion technology, including biofeedback, how motors and lighting work with a human body, and how to design for washability. If you have a question for this Hack Chat, add it to the discussion part of the event page.

Our Hack Chats are live community events on the Hackaday.io Hack Chat group messaging. This Hack Chat is going down Friday, January 19th at noon, Pacific time. Time Zones got you down? Here’s a handy countdown timer!

Click that speech bubble to the left, and you’ll be taken directly to the Hack Chat group on Hackaday.io.

You don’t have to wait until Friday; join whenever you want and you can see what the community is talking about.

3D Printing Wearables With A Net

January 6, 2018 by Al Williams 4 Comments

If you want to build wearables, you need to know how to sew, right? Maybe not. While we’re sure it would come in handy, [Drato] (also known as [RobotMama]) shows how she prints designs directly on a net-like fabric. You can see a video of the process below.

The video after the break shows an Ultimaker, but there’s really nothing particularly special about the printer. The trick is to print a few layers, pause, and then insert the fabric under the printer before resuming the print.

[Drato] holds the fabric down after inserting it, and mentions you can use glue to hold it down, too. We wondered if some bulldog or alligator clips might work. The only thing we worried about is if the fabric were made of some synthetic, it might not take hot plastic without melting.

[Drato] mentions she uses Organza, which is a sheer fabric often found on wedding gowns. However, she doesn’t mention if she is using the polyester, silk, or nylon type of the fabric. A little research shows that polyester and nylon fabrics melt at about 295 C. Silk was harder to track down, but since you can iron it on a medium setting, that might work, too. Of course, the temperature where it melts and the temperature where it just deforms beyond use might be different, so some experimentation is probably wise.

What really piqued our interest was the application to creating wearables without sewing. We’ll be curious what other applications you could find for printing directly on a fabric substrate.

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Living 3D Printer Filament

December 22, 2017 by James Hobson 15 Comments

This is more than a printing filament hack — closer to bleeding edge bio-engineering — but we can’t help but be fascinated by the prospect of 3D printing with filament that’s alive on a cellular level.

The team from MIT led by [Xuanhe Zhao] and [Timothy Lu] have programmed bacteria cells to respond to specific compounds. To demonstrate, they printed a temporary tattoo of a tree formed of the sturdy bacteria and a hydrogel ‘ink’ loaded with nutrients, that lights up over a few hours when adhered to skin swabbed with these specific stimuli.

So far, the team has been able to produce objects as large as several centimetres, capable of being adapted into active materials when printed and integrated as wearables, displays, sensors and more.

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Bouncing Pack Eases Those Tired Shoulders

June 9, 2017 by Jenny List 41 Comments

If you are a hillwalker, wherever your preferred stomping ground may be you’ll know the importance of a pack with a good strap system. A comfortable pack will make the difference between tiredness and agony, and can easily add a considerable difference to your daily range.

At Arizona State University’s Human Integration Laboratory, they were approached by the US Army to investigate means by which the effect of carrying a heavy backpack could be mitigated. A soldier’s full kit is extremely heavy, and while the best available webbing systems will make a contribution to the comfort of carrying it, they can only go so far. There is still the jarring effect of the impulse force of such a significant load bearing down on the soldier’s shoulders as it comes down after every step, and this when taken over a lengthy march makes a significant difference to overall endurance.

The ASU lab’s solution was to mount the load on a spring-loaded vertical actuator attached to the pack harness and frame. The on-board microcontroller judges the moment of maximum downward impulse force as the wearer comes down from a step, and applies a corresponding upward force to the actuator. Power comes from a lithium-ion battery pack. The effect is to make the load oscillate up and down, and to lessen the wear and tear on the shoulders. It does not reduce the weight you are carrying, but it does lift it off your shoulders for an instant just when you need it.

There is a video of it being tested in the sun-drenched Arizona mountains, that we’ve placed below the break.

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The Textile Bench

May 23, 2017 by Jenny List 52 Comments

What’s on your bench? Mine’s mostly filled with electronic test equipment, soldering kit, and computers. I’m an electronic engineer by trade when I’m not writing for Hackaday, so that’s hardly surprising. Perhaps yours is like mine, or maybe you’ve added a 3D printer to the mix, a bunch of woodworking tools, or maybe power tools.

So that’s my bench. But is it my only bench? On the other side of the room from the electronics bench is a sturdy folding dining table that houses the tools and supplies of my other bench. I’m probably not alone in having more than one bench for different activities, indeed like many of you I also have a messy bench elsewhere for dismantling parts of 1960s cars, or making clay ovens.

My textile bench, with a selection of the equipment used on it.

The other bench in question though is not for messy work, in fact the diametric opposite. This is my textile bench, and it houses the various sewing machines and other equipment that allow me to tackle all sorts of projects involving fabric. On it I’ve made, modified, and repaired all sorts of clothing, I’ve made not-very-successful kites, passable sandals, and adventurous tent designs among countless other projects.

Some of you might wonder why my textile bench is Hackaday fodder, after all it’s probably safe to assume that few readers have ever considered fabricating their own taffeta ball gown. But to concentrate only on one aspect of textile work misses the point, because the potential is there for so much cross-over between these different threads of the maker world. So I’m going to take you through my textile bench and introduce you to its main tools. With luck this will demystify some of them, and maybe encourage you to have a go.

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