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Presented at CHI 2012, Touché is a capacitive system for pervasive, continuous sensing. Among other amazing capabilities, it can accurately sense gestures a user makes on his own body. “It is conceivable that one day mobile devices could have no screens or buttons, and rely exclusively on the body as the input surface.” Touché.

Noticing that many of the same sensors, silicon, and batteries used in smartphones are being used to create smarter artificial limbs, Fast Company draws the conclusion that the market for smartphones is driving technology development useful for bionics. While interesting enough, the article doesn’t continue to the next logical and far more interesting possibility: that phones themselves are becoming parts of our bodies. To what extent are smartphones already bionic organs, and how could we tell if they were? I’m actively researching design in this area – stay tuned for more about the body-incorporated phone.

A study provides evidence that talking into a person’s right ear can affect behavior more effectively than talking into the left.

One of the best known asymmetries in humans is the right ear dominance for listening to verbal stimuli, which is believed to reflect the brain’s left hemisphere superiority for processing verbal information.

I heavily prefer my left ear for phone calls. So much so that I have trouble understanding people on the phone when I use my right ear. Should I be concerned that my brain seems to be inverted?

Read on and it becomes clear that going beyond perceptual psychology, the scientists are terrifically shrewd:

Tommasi and Marzoli’s three studies specifically observed ear preference during social interactions in noisy night club environments. In the first study, 286 clubbers were observed while they were talking, with loud music in the background. In total, 72 percent of interactions occurred on the right side of the listener. These results are consistent with the right ear preference found in both laboratory studies and questionnaires and they demonstrate that the side bias is spontaneously displayed outside the laboratory.

In the second study, the researchers approached 160 clubbers and mumbled an inaudible, meaningless utterance and waited for the subjects to turn their head and offer either their left of their right ear. They then asked them for a cigarette. Overall, 58 percent offered their right ear for listening and 42 percent their left. Only women showed a consistent right-ear preference. In this study, there was no link between the number of cigarettes obtained and the ear receiving the request.

In the third study, the researchers intentionally addressed 176 clubbers in either their right or their left ear when asking for a cigarette. They obtained significantly more cigarettes when they spoke to the clubbers’ right ear compared with their left.

I’m picturing the scientists using their grant money to pay cover at dance clubs and try to obtain as many cigarettes as possible – carefully collecting, then smoking, their data – with the added bonus that their experiment happens to require striking up conversation with clubbers of the opposite sex who are dancing alone. One assumes that, if the test subject happened to be attractive, once the cigarette was obtained (or not) the subject was invited out onto the terrace so the scientist could explain the experiment and his interesting line of work. Well played!

Another MRI study, this time investigating how we learn parts of speech:

The test consisted of working out the meaning of a new term based on the context provided in two sentences. For example, in the phrase “The girl got a jat for Christmas” and “The best man was so nervous he forgot the jat,” the noun jat means “ring.” Similarly, with “The student is nising noodles for breakfast” and “The man nised a delicious meal for her” the hidden verb is “cook.”

“This task simulates, at an experimental level, how we acquire part of our vocabulary over the course of our lives, by discovering the meaning of new words in written contexts,” explains Rodríguez-Fornells. “This kind of vocabulary acquisition based on verbal contexts is one of the most important mechanisms for learning new words during childhood and later as adults, because we are constantly learning new terms.”

The participants had to learn 80 new nouns and 80 new verbs. By doing this, the brain imaging showed that new nouns primarily activate the left fusiform gyrus (the underside of the temporal lobe associated with visual and object processing), while the new verbs activated part of the left posterior medial temporal gyrus (associated with semantic and conceptual aspects) and the left inferior frontal gyrus (involved in processing grammar).

This last bit was unexpected, at first. I would have guessed that verbs would be learned in regions of the brain associated with motor action. But according to this study, verbs seem to be learned only as grammatical concepts. In other words, knowledge of what it means to run is quite different than knowing how to run. Which makes sense if verb meaning is accessed by representational memory rather than declarative memory.

Researchers at the University of Tampere in Finland found that,

Interfaces that vibrate soon after we click a virtual button (on the order of tens of milliseconds) and whose vibrations have short durations are preferred. This combination simulates a button with a “light touch” – one that depresses right after we touch it and offers little resistance.

Users also liked virtual buttons that vibrated after a longer delay and then for a longer subsequent duration. These buttons behaved like ones that require more force to depress.

This is very interesting. When we think of multimodal feedback needing to make cognitive sense, synchronization first comes to mind. But there are many more synesthesias in our experience that can only be uncovered through careful reflection. To make an interface feel real, we must first examine reality.

Researchers at the Army Research Office developed a vibrating belt with eight mini actuators — “tactors” — that signify all the cardinal directions. The belt is hooked up to a GPS navigation system, a digital compass and an accelerometer, so the system knows which way a soldier is headed even if he’s lying on his side or on his back.

The tactors vibrate at 250 hertz, which equates to a gentle nudge around the middle. Researchers developed a sort of tactile morse code to signify each direction, helping a soldier determine which way to go, New Scientist explains. A soldier moving in the right direction will feel the proper pattern across the front of his torso. A buzz from the front, side and back tactors means “halt,” a pulsating movement from back to front means “move out,” and so on.

A t-shirt design by Derek Eads.

Recent research reveals some fun facts about aural-tactile synesthesia:

Both hearing and touch, the scientists pointed out, rely on nerves set atwitter by vibration. A cell phone set to vibrate can be sensed by the skin of the hand, and the phone’s ring tone generates sound waves — vibrations of air — that move the eardrum…

A vibration that has a higher or lower frequency than a sound… tends to skew pitch perception up or down. Sounds can also bias whether a vibration is perceived.

The ability of skin and ears to confuse each other also extends to volume… A car radio may sound louder to a driver than his passengers because of the shaking of the steering wheel. “As you make a vibration more intense, what people hear seems louder,” says Yau. Sound, on the other hand, doesn’t seem to change how intense vibrations feel.

Max Mathews, electronic music pioneer, has died.

Though computer music is at the edge of the avant-garde today, its roots go back to 1957, when Mathews wrote the first version of “Music,” a program that allowed an IBM 704 mainframe computer to play a 17-second composition. He quickly realized, as he put it in a 1963 article in Science, “There are no theoretical limits to the performance of the computer as a source of musical sounds.”

Rest in peace, Max.

UPDATE: I haven’t updated this blog in a while, and I realized after posting this that my previous post was about the 2010 Modulations concert. Max Mathews played at Modulations too, and that was the last time I saw him.

I finally got around to recording and mastering the set I played at the CCRMA Modulations show a few months back. Though I’ve been a drum and bass fan for many years, this year’s Modulations was the first time I’d mixed it for others. Hope you like it!

Modulations 2010
Drum & Bass | 40:00 | May 2010

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1. Excision — System Check
2. Randomer — Synth Geek
3. Noisia — Deception
4. Bassnectar — Teleport Massive (Bassnectar Remix)
5. Moving Fusion, Shimon, Ant Miles — Underbelly
6. Brookes Brothers — Crackdown
7. The Ian Carey Project — Get Shaky (Matrix & Futurebound’s Nip & Tuck Mix)
8. Netsky — Eyes Closed
9. Camo & Krooked — Time Is Ticking Away feat. Shaz Sparks

Over the last few days this video has been so much bombshell to many of my music-prone friends.

It’s called the Multi-Touch Light Table and it was created by East Bay-based artist/fidget-house DJ Gregory Kaufman. The video is beautifully put together, highlighting the importance of presentation when documenting new ideas.

I really like some of the interaction ideas presented in the video. Others, I’m not so sure about. But that’s all right: the significance of the MTLT is that it’s the first surface-based DJ tool that systematically accounts for the needs of an expert user.

Interestingly, even though it looks futuristic and expensive to us, interfaces like this will eventually be the most accessible artistic tools. Once multi-touch surface are ubiquitous, the easiest way to gain some capability will be to use inexpensive or open-source software. The physical interfaces created for DJing, such as Technics 1200s, are prosthetic objects (as are musical instruments), and will remain more expensive because mechanical contraptions will always be. Now, that isn’t to say that in the future our interfaces won’t evolve to become digital, networked, and multi-touch sensitive, or even that their physicality will be replaced with a digital haptic display. But one of the initial draws of the MTLT—the fact of its perfectly flat, clean interactive surface—seems exotic to us right now, and in the near future it will be default.

Check out this flexible interface called impress. Flexible displays just look so organic and, well impressive. One day these kinds of surface materials will become viable displays and they’ll mark a milestone in touch computing.

It’s natural to stop dancing between songs. The beat changes, the sub-rhythms reorient themselves, a new hook is presented and a new statement is made. But stopping dancing between songs is undesirable. We wish to lose ourselves in as many consecutive moments as possible. The art of mixing music is to fulfill our desire to dance along to continuous excellent music, uninterrupted for many minutes (or, in the best case, many hours) at a time. (Even if we don’t explicitly move our bodies to the music, when we listen our minds are dancing; the same rules apply.)

I don’t remember what prompted me to take that note, but it was probably not that the mixing was especially smooth.



A tomato hailing from Capay, California.

LHCSound is a site where you can listen to sonified data from the Large Hadron Collider. Some thoughts:

  • That’s one untidy heap of a website. Is this how it feels to be inside the mind of a brilliant physicist?
  • The name “LHCSound” refers to “Csound”, a programming language for audio synthesis and music composition. But how many of their readers will make the connection?
  • If they are expecting their readers to know what Csound is, then their explanation of the process they used for sonification falls way short. I want to know the details of how they mapped their data to synthesis parameters.
  • What great sampling material this will make. I wonder how long before we hear electronic music incorporating these sounds.

The Immersive Pinball demo I created for Fortune’s Brainstorm:Tech conference was featured in a BBC special on haptics.

I keep watching the HTC Sense unveiling video from Mobile World Congress 2010. The content is pretty cool, but I’m more fascinated by the presentation itself. Chief marketing officer John Wang gives a simply electrifying performance. It almost feels like an Apple keynote.

The iFeel_IM haptic interface has been making rounds on the internet lately. I tried it at CHI 2010 a few weeks ago and liked it a lot. Affective (emotional haptic) interfaces are full of potential. IFeel_IM mashes together three separate innovations:

  • Touch feedback in several different places on the body: spine, tummy, waist.
  • Touch effects that are generated from emotional language.
  • Synchronization to visuals from Second Life

All are very interesting. The spine haptics seemed a stretch to me, but the butterfly-in-the-tummy was surprisingly effective. The hug was good, but a bit sterile. Hug interfaces need nuance to bring them to the next level of realism.

The fact that the feedback is generated from the emotional language of another person seemed to be one of the major challenges—the software is built to extract emotionally-charged sentences using linguistic models. For example, if someone writes “I love you” to you, your the haptic device on your tummy will react by creating a butterflies-like sensation. As an enaction devotee I would rather actuate a hug with a hug sensor. Something about the translation of words to haptics is difficult for me to accept. But it could certainly be a lot of fun in some scenarios!

I’ve re-recorded my techno mix Awake with significantly higher sound quality. So if you downloaded a copy be sure to replace it with the new file!

Awake

Awake
Techno | 46:01 | October 2009

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1. District One (a.k.a. Bart Skils & Anton Pieete) — Dubcrystal
2. Saeed Younan — Kumbalha (Sergio Fernandez Remix)
3. Pete Grove — I Don’t Buy It
4. DBN — Asteroidz featuring Madita (D-Unity Remix)
5. Wehbba & Ryo Peres — El Masnou
6. Broombeck — The Clapper
7. Luca & Paul — Dinamicro (Karotte by Gregor Tresher Remix)
8. Martin Worner — Full Tilt
9. Joris Voorn — The Deep

I recently started using Eclipse on OS X and it was so unresponsive, it was almost unusable. Switching tabs was slow, switching perspectives was hella slow. I searched around the web for a solid hour for how to make it faster and finally found the solution. Maybe someone can use it.

My machine is running OS X 10.5, and I have 2 GB of RAM. (This is important because the solution requires messing with how Eclipse handles memory. If you have a different amount of RAM, these numbers may not work and you’ll need to fiddle with them.)

  • Save your work and quit Eclipse.
  • Open the Eclipse application package by right-clicking (or Control-clicking) on Eclipse.app and select “Show Package Contents.”
  • Navigate to Contents→MacOS→, and open “eclipse.ini” in your favorite text editor.
  • Edit the line that starts with -”XX:MaxPermSize” to say “-XX:MaxPermSize=128m”.
  • Before that line, add a line that says “-XX:PermSize=64m”.
  • Edit the line that starts with “-Xms” to say “-Xms40m”.
  • Edit the line that starts ith “-Xmx” to say “-Xmx768m”.
  • Save & relaunch Eclipse.

Worked like a charm for me.

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vibrotactile feedback

09

Aug
2011

No Comments

In perception

By Dave

How touchscreen buttons “should” feel

On 09, Aug 2011 | No Comments | In perception | By Dave

Researchers at the University of Tampere in Finland found that,

Interfaces that vibrate soon after we click a virtual button (on the order of tens of milliseconds) and whose vibrations have short durations are preferred. This combination simulates a button with a “light touch” – one that depresses right after we touch it and offers little resistance.

Users also liked virtual buttons that vibrated after a longer delay and then for a longer subsequent duration. These buttons behaved like ones that require more force to depress.

This is very interesting. When we think of multimodal feedback needing to make cognitive sense, synchronization first comes to mind. But there are many more synesthesias in our experience that can only be uncovered through careful reflection. To make an interface feel real, we must first examine reality.

Tags | , , ,

01

Jul
2011

No Comments

In interfaces

By Dave

Haptic ambient display for soldiers

On 01, Jul 2011 | No Comments | In interfaces | By Dave

Researchers at the Army Research Office developed a vibrating belt with eight mini actuators — “tactors” — that signify all the cardinal directions. The belt is hooked up to a GPS navigation system, a digital compass and an accelerometer, so the system knows which way a soldier is headed even if he’s lying on his side or on his back.

The tactors vibrate at 250 hertz, which equates to a gentle nudge around the middle. Researchers developed a sort of tactile morse code to signify each direction, helping a soldier determine which way to go, New Scientist explains. A soldier moving in the right direction will feel the proper pattern across the front of his torso. A buzz from the front, side and back tactors means “halt,” a pulsating movement from back to front means “move out,” and so on.

Tags | , , , ,

06

Dec
2008

No Comments

In interfaces

By David Birnbaum

Vibrating puck reminds you to sit up straight

On 06, Dec 2008 | No Comments | In interfaces | By David Birnbaum

The iPosture is a small white disk that you stick somewhere on your body. When it senses that you’re sitting with bad posture for more than one minute, it reminds you with a buzz to straighten up. The website specifies that the tilt sensor has a resolution of three degrees.

This reminded me that during piano lessons as a young kid, when my teacher saw me slouch she would run her nail along my back to make me sit up. Which, if you think about it, is also a form of tactile feedback for posture correction.

(via Engadget)

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20

Jun
2008

No Comments

In art

By David Birnbaum

Brain-computer-tactor chair

On 20, Jun 2008 | No Comments | In art | By David Birnbaum

Shown last month at MoMA, the Mind Chair:

A movie camera is attached to an enhanced grid of 400 solenoids installed in the back of the Mind Chair. People are able to sit in the chair, close their eyes and concentrate on the images which are vibrated into their backs by the solenoids.

Also check out the variant called Mind Chair Polyprop, which seems like an effort to make a more practical, mass-producible version.

(via Dezeen)

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11

Apr
2008

No Comments

In interfaces

By David Birnbaum

Vibrotactile Braille wireless phone

On 11, Apr 2008 | No Comments | In interfaces | By David Birnbaum

A blind Japanese professor has prototyped a wireless phone with an integrated vibrating Braille display:

A former teacher at a school for the blind and a professor from Tsukuba University of Technology have developed a cell phone that sends out vibrations representing Braille symbols to enable people with sight and hearing difficulties to communicate… When a caller pushes numbers on the keypad corresponding to Braille symbols, two terminals attached to the receiver’s phone vibrate at a specific rate to create a message.

Japanese Braille uses six dots to represent the Japanese syllabary. Using the numbers 1, 2, 4, 5, 7 and 8, on cell phones to represent these six dots, it’s possible to form Braille symbols. The developers are now working to make the devices that convert keypad information into vibrations smaller than their current size (16 centimeters by 10 centimeters). If vibration-based Braille is applied more widely, it may enable information to be “broadcast” to several blind people at once.

The idea of representing one bit of Braille with one cell phone key has a certain elegance, but I’m not sure how useful it would be. Readers of Braille are used to using their fingertips, not their entire palms. On the other hand, the article is so vague that I might not even be understanding what they’re up to.

(via Engadget)

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02

Mar
2008

No Comments

In code

By David Birnbaum

Third party haptic keyboard for iPhone

On 02, Mar 2008 | No Comments | In code | By David Birnbaum

A downloadable haptic keyboard for the iPhone.

Totally missing the point, Gizmodo asks, “Does anyone care?”, noting that users are already accustomed to the iPhone’s non-tactile keyboard, and that this particular haptic keyboard is buggy. Whatever; research clearly indicates that vibrotactile feedback for surface keyboards enhances interaction. Kudos to these folks at the University of Glasgow for beginning an open project on a popular platform to develop this much-needed software.

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08

Feb
2008

No Comments

In interfaces

By Dave

Vibrating Bluetooth mobile peripherals

On 08, Feb 2008 | No Comments | In interfaces | By Dave

Recently a friend lamented the uselessness of vibration feedback for females, who tend to carry their mobile devices in a handbag rather than a pocket. Solution: a fashionable vibrating Bluetooth bracelet. The company that designed it also offers the gadget in a wristwatch form factor.

[via Boing Boing.]

UPDATE: Aformentioned friend notes that the bracelet is not, in fact, fashionable. My mistake!

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10

Jan
2008

No Comments

In interfaces
music

By David Birnbaum

Vibration @ CES: The ButtKicker

On 10, Jan 2008 | No Comments | In interfaces, music | By David Birnbaum

A company called Guitammer has just released a product called the ButtKicker Gamer at CES. Vibrating gaming chairs are nothing new, but this is a $150 peripheral that can be attached to your existing computer chair, which seems a lot more convenient and portable. What I found really interesting was that on its website the company also offers a version called the “ButtKicker Concert” (lol), specifically designed for musical performance. Their website boasts that the device has excellent “musical accuracy”, complete with testimony from a drummer who said that he is able to feel the timing of his ghost notes.

The ButtKicker seems to be an instrument-independent vibrotactile feedback augmentation device for musical performance self-monitoring. And that’s kinda cool!

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23

Oct
2007

No Comments

In interfaces

By David Birnbaum

Augmenting feedback for snowboarders

On 23, Oct 2007 | No Comments | In interfaces | By David Birnbaum

Here’s an interesting project that was recently presented at the Media Computing Group at RWTH Aachen University. The wearable snowboarding assistant (pdf, 2.7 MB) makes use of a number of vibrotactile actuators worn at various points on the body to give real-time feedback about whether the user is performing within optimal ranges of motion and posture. The training system, which is still under development, will apparently use sensor recordings from expert snowboarders to create a reference signal of optimal weight distribution, joint angles, and other parameters. The trainee’s vibrators will be activated when the sensors on his or her body detect a deviation from the optimal input.

This is an example of feedback that may be called “augmented”, where a channel of information is overlaid on the normal sensory inputs of a task. Techniques such as these have been shown (PS, 24 MB) to be useful for acquiring sensorimotor skills. A feedback signal can be generated by subtracting the input from sensors monitoring the task from a sensor recording made by an expert while doing the same task. Vibration is a very effective way of augmenting feedback, because it is inexpensive, somatic, and has a low attentional requirement. I’m very excited to see how the wearable snowboarding assistant develops.

For some background on augmented feedback, see this excellent book.

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