This time I’ve decided to explore a few of the human/computer interface stories I’ve run across lately. So this posting is largely speculative and rambling as I’m not driving towards a conclusion.

My first item is a May 3, 2011 news item on physorg.com. It concerns an art installation at Rensselaer Polytechnic Institute, The Ascent. From the news item,

A team of Rensselaer Polytechnic Institute students has created a system that pairs an EEG headset with a 3-D theatrical flying harness, allowing users to “fly” by controlling their thoughts. The “Infinity Simulator” will make its debut with an art installation [The Ascent] in which participants rise into the air – and trigger light, sound, and video effects – by calming their thoughts.

I found a video of someone demonstrating this project:
http://blog.makezine.com/archive/2011/03/eeg-controlled-wire-flight.html

Please do watch:

I’ve seen this a few times and it still absolutely blows me away.

If you should be near Rensselaer on May 12, 2011, you could have a chance to fly using your own thoughtpower, a harness, and an EEG helmet. From the event webpage,

Come ride The Ascent, a playful mash-up of theatrics, gaming and mind-control. The Ascent is a live-action, theatrical ride experience created for almost anyone to try. Individual riders wear an EEG headset, which reads brainwaves, along with a waist harness, and by marshaling their calm, focus, and concentration, try to levitate themselves thirty feet into the air as a small audience watches from below. The experience is full of obstacles-as a rider ascends via the power of concentration, sound and light also respond to brain activity, creating a storm of stimuli that conspires to distract the rider from achieving the goal: levitating into “transcendence.” The paradox is that in order to succeed, you need to release your desire for achievement, and contend with what might be the biggest obstacle: yourself.

“The effect is nothing short of movie magic.” – Sean Hollister, Engadget

Here’s a brief description of the technology behind this ‘Ascent’ (from the news item on physorg.com),

Ten computer programs running simultaneously link the commercially available EEG headset to the computer-controlled 3-D flying harness and various theater systems, said Todd. [Michael Todd, a Rensselaer 2010 graduate in computer science]

“We’ve built a software system on top of the rigging control board and now have control of it through an iPad, and since we have the iPad control, we can have anything control it,” said Duenyas. “The ‘Infinity Simulator’ is the center; everything talks to the ‘Infinity Simulator.’”

This May 3, 2011 article (Mystery Man Gives Mind-Reading Tech More Early Cash Than Facebook, Google Combined) by Kit Eaton on Fast Company also concerns itself with a brain/computer interface. From the article,

Imagine the money that could be made by a drug company that accurately predicted and treated the onset of Alzheimer’s before any symptoms surfaced. That may give us an idea why NeuroVigil, a company specializing in non-invasive, wireless brain-recording tech, just got a cash injection that puts it at a valuation “twice the combined seed valuations of Google’s and Facebook’s first rounds,” according to a company announcement
…
NeuroVigil’s key product at the moment is the iBrain, a slim device in a flexible head-cap that’s designed to be worn for continuous EEG monitoring of a patient’s brain function–mainly during sleep. It’s non-invasive, and replaces older technology that could only access these kind of brain functions via critically implanted electrodes actually on the brain itself. The idea is, first, to record how brain function changes over time, perhaps as a particular combination of drugs is administered or to help diagnose particular brain pathologies–such as epilepsy.
…
But the other half of the potentailly lucrative equation is the ability to analyze the trove of data coming from iBrain. And that’s where NeuroVigil’s SPEARS algorithm enters the picture. Not only is the company simplifying collection of brain data with a device that can be relatively comfortably worn during all sorts of tasks–sleeping, driving, watching advertising–but the combination of iBrain and SPEARS multiplies the efficiency of data analysis [emphasis mine].

I assume it’s the notion of combining the two technologies (iBrian and SPEARS) that spawned the ‘mind-reading’ part of this article’s title. The technology could be used for early detection and diagnosis, as well as, other possibilities as Eaton notes,

It’s also possible it could develop its technology into non-medicinal uses such as human-computer interfaces–in an earlier announcement, NeuroVigil noted, “We plan to make these kinds of devices available to the transportation industry, biofeedback, and defense. Applications regarding pandemics and bioterrorism are being considered but cannot be shared in this format.” And there’s even a popular line of kid’s toys that use an essentially similar technique, powered by NeuroSky sensors–themselves destined for future uses as games console controllers or even input devices for computers.

What these two technologies have in common is that, in some fashion or other, they have (shy of implanting a computer chip) a relatively direct interface with our brains, which means (to me anyway) a very different relationship between humans and computers.

In the next couple of items I’m going to profile a couple of very similar to each other technologies that allow for more traditional human/computer interactions, one of which I’ve posted about previously, the Nokia Morph (most recently in my Sept. 29, 2010 posting).

It was first introduced as a type of flexible phone with other capabilities. Since then, they seem to have elaborated on those capabilities. Here’s a description of what they now call the ‘Morph concept’ in a [ETA May 12, 2011: inserted correct link information] May 4, 2011 news item on Nanowerk,

Morph is a joint nanotechnology concept developed by Nokia Research Center (NRC) and the University of Cambridge (UK). Morph is a concept that demonstrates how future mobile devices might be stretchable and flexible, allowing the user to transform their mobile device into radically different shapes. It demonstrates the ultimate functionality that nanotechnology might be capable of delivering: flexible materials, transparent electronics and self-cleaning surfaces.

Graphene will enable evolution of the current technology e.g. continuation of the ever increasing computing power when the performance of the computing would require sub nanometer scale transistors by using conventional materials.

For someone who’s been following news of the Morph for the last few years, this news item doesn’t give you any new information. Still, it’s nice to be reminded of the Morph project. Here’s a video produced by the University of Cambridge that illustrates some of the project’s hopes for the Morph concept,

While the folks at the Nokia Research Centre and University of Cambridge have been working on their project, it appears the team at the Human Media Lab at the School of Computing at Queen’s University (Kingston, Ontario, Canada) in cooperation with a team from Arizona State University and E Ink Corporation have been able to produce a prototype of something remarkably similar, albeit with fewer functions. The PaperPhone is being introduced at the Association of Computing Machinery’s CHI 2011 (Computer Human Interaction) conference in Vancouver, Canada next Tuesday, May 10, 2011.

Here’s more about it from a May 4, 2011 news item on Nanowerk,

The world’s first interactive paper computer is set to revolutionize the world of interactive computing.

The smartphone prototype, called PaperPhone is best described as a flexible iPhone – it does everything a smartphone does, like store books, play music or make phone calls. But its display consists of a 9.5 cm diagonal thin film flexible E Ink display. The flexible form of the display makes it much more portable that any current mobile computer: it will shape with your pocket.

For anyone who knows the novel, it’s very Diamond Age (by Neal Stephenson). On a more technical note, I would have liked more information about the display’s technology. What is E Ink using? Graphene? Carbon nanotubes?

(That does not look like to paper to me but I suppose you could call it ‘paperlike’.)

In reviewing all these news items, it seems to me there are two themes, the computer as bodywear and the computer as an extension of our thoughts. Both of these are more intimate relationships, the latter far more so than the former, than we’ve had with the computer till now. If any of you have any thoughts on this, please do leave a comment as I would be delighted to engage on some discussion about this.

You can get more information about the Association of Computing Machinery’s CHI 2011 (Computer Human Interaction) conference where Dr. Vertegaal will be presenting here.

You can find more about Dr. Vertegaal and the Human Media Lab at Queen’s University here.

The academic paper being presented at the Vancouver conference is here.

Also, if you are interested in the hardware end of things, you can check out E Ink Corporation, the company that partnered with the team from Queen’s and Arizona State University to create the PaperPhone. Interestingly, E Ink is a spin off company from the Massachusetts Institute of Technology (MIT).