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Enhanced vision, as depicted in the Terminator series.  (Source: Warner Bros.)
New research incorporates a single pixel into contact lenses, paving the way for array displays

In Terminator and other sci-fi flicks, robots are often equipped with high tech displays, which pipe text and graphics over human-like views of the world around them.  The question some creative researchers have asked is -- why can't humans do that with digitally active contact lenses?

I. The Rise of Digital Contact Lenses: From the Lab to the Marketplace

Want to pipe a digital image into the eyes?  You have two possibilities.  One is to replace the eyeball with a digital image sensor, which can have its own built in image generating/processing capabilities and pipes finished signals directly into the optical nerve.  A lot of work has been done in this field in hopes of giving those blinded by ocular damage vision, but barring "eyeball replacement" surgery, it doesn't do the majority of mankind much good.

A more ubiquitous solution is to develop a contact lens capable of similar feats (e.g. text/images display, biomonitoring, vision magnification, etc.).  Think of the active contact lens as a contact on steroids.

It's hard to trace the active contact lens' birth date, but the year might be 1973.  

That year James Kinn and Richard Tell, resarchers at the National Environmental Research Center -- a U.S. Environmental Protection Agency lab -- created [abstract] a contact lens with a thermocouple built in.  The sensor-cum-contact was arguably the first digitally active design to be realized.

first digital contact
[Image Source: IEEE Transactions on Biomedical Engineering/EPA]

As the electronics revolution commenced in the 1970s and 1980s, though, little work was done to expand on this precocious design.  Interest revived in the late 1990s [1][2], but it was not until 2001 that the device would begin to step from concept into commercial reality.

In 2001 Matteo Leonardi (first author; Université de Genève Medical School, Switzerland), Daniel Bertrand (senior author; Université de Genève Medical School, Switzerland), reported that they had used micro-electro-mechanic sensors (MEMS) to create a contact lens that monitored ocular pressure -- an important indicator of Glaucoma.  The research was presented at the New Directions in Cellular and Tissue Biomechanics conference in Les Diablerets, Switzerland.  

By 2003, Mr. Leonardi has co-founded a Swiss Federal Institute of Technology (EPFL) spinoff, Sensimed AG to commercialized the design.  In 2009, the company launched the world's first commercial digitally active contact lens.

The finished design, dubbed "Triggerfish", uses an embedded a MEMS strain gauge sensor and microprocessor inside a soft silicone contact lens.  All of these circuit elements are excentric, out of the line of sight.  The device receives power from and ferries signals via a circular antenna around the eye socket.

[Image Source: Sensimed]

II. Next up: Text

In the last decade others have also jumped into this hot field, devising even more ambitious designs.  Among the most noteworthy is Professor Babak Parviz of Seattle's Washington University, who added pixel displays to the mix.

Professor Parviz first revealed his current work in 2008 when he presented [abstract] at the Institute of Electrical and Electronics Engineers' international conference on Micro Electro Mechanical Systems a research report.  

At the time his system consisted of a single crude light-emitting diode (LED).  Since then, he has refined the design, with better LEDs, including the addition of wireless power concepts of Triggerfish (the original '08 design had physical wires powering it) and lower power/smaller LEDs (a 2010 publication [abstract] lists the current consumption at 12 µW).

He's also played with the idea -- perhaps inspired by Triggerfish -- of adding medical sensors, such as a glucose sensor (monitoring tear glucose, an indicator of blood sugar in diabetics), into the design.  The work was published [abstract] in Feb. 2011.

Contact lens designs
The single pixel improved designs is seen in the top three images, while the glucose sensing design is seen at the bottom.  [Source: University of Washington]

But creating a contact lens display has been his chief objective.  A major obstacle has been focusing the image.  In short, you need miniature lenses to focus the image on the eye.  

In his latest work Professor Parviz recruited the help of researchers at Finland's Aalto University to create an optimized contact lens which incorporates micro-Fresnel lenses to focus light from the micro LEDs on the retina.  The design was tested and proven safe on rabbits, producing no short-term corneal damage

Take a look at the results:

Improved contact
The latest contact (left) is shown in a rabbit's eye, with the LED.  Next to it (right) is a microscopic view of the driver circuit (seen in the top-left figure, packaged).
[Image Source: University of Washington]

III. A Work in Progress

Based on that you might notice some problems.

You might think the size of the IC was a problem, but remember you have approximately the area of the iris, minus the incident appr. 100 degree field of view angle from the edge of the pupil -- quite a lot of space, particularly if you're using stacked circuits.

The actual major problem is the wires themselves.  While it might be possible to use transpare conductors, the big issue is the wire thickness.  A related issue is the short range of the current wireless power transmission.  

The paper describes:

Signicant improvements are necessary to produce fully functional, remotely powered, high-resolution displays.  Although we could power our system in free space from more than a meter, operating distances on the rabbit eye were reduced to the cm range. Matching, interface and absorption losses are likely causes of the limited operational distance. We are working to improve matching losses, to ensure that power received by the contact lens is maximized at the frequency of best antenna-to-chip matching, and to optimize LED ef?ciency and duty cycling to reduce power consumption of individual pixels. Although only microwatts of power is available on the contact lens, most light generated by the optical components directly enters the eye.  Thus, the display could ef?ciently generate an image while consuming little power.

IV. The Future of Digital Contacts

A 32x32 display using OLEDs was recently showcased [white paper] by a startup named Semprius.  The display drew approximately 33 mW of power on average, with a 2 µW per-pixel cost (roughly in line with the U of W results, given that many pixels are off).

Semprius makes what may be a solution to the power issue -- thin film micro-solar cells [white paper], which could provide a localized alternative to wireless power distribution.  

Microsolar and OLEDs
Microsolar (left) could power mid-resolution arrays of microleds (right).
[Image Source: Semprius]

The cornea is approximate 1.5 cm2 in the average human [source].  A contact lens has an average surface area of around 2-2.5 cm2.  Assuming 1,000 W/m2 in full sunlight, this implies an average 0.2-0.25 watts striking the eye.  When taking into account, the non-direct incident angle, this likely drops to under 100 mW [source].  Thus such a solution would likely have to include a gel coat that hugs the conjuctiva (white part of the eye) with additional capacity.  

Assuming your total exposure for this combined module was 300 mW on a sunny day, your cells would have to be 10 percent efficient to power the Semprius display.  Semprius and other startups make micro-solar cells in this efficiency range.  Of course these are just crude calculations so they may be a bit off (disclaimer).

The point is that stand-alone low-resolution displays may be able to be powered by the light that the conjuctiva and corneal regions are exposed to, particularly if paired with thermocouples (drawing energy from the body heat) and piezoelectrics (drawing energy from body movement).  Alternatively advances in wireless power could lead to safe, longer range power sources.

Ultimately the digitally active contact lens of the future aims to be a high resolution display, which can assert an augmented reality, including text and images over human vision.  Such a design would work for business (work displayed right in your eyes), communications (text messages, emails), and pleasure (imagine watching movies or "tripping" without drugs via in-eye vision).

The lens will also likely optionally incorporate glucose, occular pressure, and possibly other sensors to monitor eye health and overall body health.

In terms of text display, Professor Parviz is fast approaching that goal.  In an interview with BBC News he states, "Our next goal is to incorporate some predetermined text in the contact lens."

In other words, it may be a few decades before the perfected "iEye" is released commercially, but in just 10 years we may have crude commercial contact lens text displays, if you're willing to wearing a bulky wireless power device around your eye socket.

Sources: IOP Science, IEEE Transactions on Biomedical Engineering, BBC News

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Sadly, I guess that means ...
By Supa on 11/23/2011 3:07:56 PM , Rating: 2
Someday the professors will have to check students' eyes before exams.


RE: Sadly, I guess that means ...
By MrTeal on 11/23/2011 3:15:10 PM , Rating: 5
Or perhaps they could come up with exams that test critical thinking skills and information synthesis as opposed to rote memorization, removing the need to segregate students from the internet and each other.

RE: Sadly, I guess that means ...
By quiksilvr on 11/23/2011 3:22:15 PM , Rating: 3
You are just aDORABLE! :D *pinches cheeks*

RE: Sadly, I guess that means ...
By Shadowmage on 11/23/2011 3:50:53 PM , Rating: 2
I guess you guys have never taken an advanced engineering course at a good school. All my exams have been open book, open notes, and in many cases open laptop (with internet).

RE: Sadly, I guess that means ...
By MrTeal on 11/23/2011 3:58:45 PM , Rating: 5
I always found those exams were more difficult than a closed book. They require more preparation in order to be able to quickly find any information you need, and are often much more time compressed. If you need to look up much of anything other than a value or a formula in the book, you have no chance of finishing on time.

Properly designed they're great tests for separating those that truly know the material from those that just did a good job of memorizing previous years exams. Anyone who figures they can study less just because it's open book will find they're 1/4 done when it's pencils down.

By MozeeToby on 11/23/2011 4:38:02 PM , Rating: 5
If you don't learn something in the process of taking a test (in the math and science fields at least) someone is making the tests wrong. Tests should always use a previously undiscussed application of the material, at least for some of the questions. It's the only way to see if students actually understand the implications of the material, versus just having the steps to solve memorize. The people who demand that every single detail on the test must have been covered in class don't understand what the purpose of the class is.

RE: Sadly, I guess that means ...
By mchentz on 11/23/2011 4:16:06 PM , Rating: 2
I do not know why my school does not do this. Memorization at my age sucks. I suffer C's and B's because I am not as good at memorization as other students.

By AnnihilatorX on 11/24/2011 6:35:06 AM , Rating: 3
Then you are either studying the wrong subject, or using the wrong method for revision

I suck at memory, and I am notoriously well known by friends and teacher alike to be very forgetful. I can't do literature and history subjects where you have to memorize a lot of date, quotes, etc.

However, I am extremely good at science exams. True there is still a lot to memorize, but because science subjects are Maths based most of the time, the memory requirement is not as much as requirement of understanding.

It's then a matter of revising for keywords, train myself how to link those together to reconstruct the facts, and practising a lot with the Math type questions. I've devised revision methods suitable for myself and I have to say it's been very successful.

By JKflipflop98 on 11/24/2011 9:25:34 PM , Rating: 3
The point is to understand the concepts that have been presented to you, and to test if you can use those tools to solve a problem in your chosen field.

It is YOU that turns it from that into a memorization exercise. If all it is to you is cramming down facts so you can regurgitate them back out later, then you are studying the wrong thing and should stop wasting your time.

RE: Sadly, I guess that means ...
By Motoman on 11/24/2011 9:51:59 AM , Rating: 2
That's crazy talk. How are you going to keep each and every student believing they're special and precious if you're going to actually *grade* them and require them to do *work*?

60 million dollar man? inflation adjusted
By Skywalker123 on 11/23/2011 4:07:29 PM , Rating: 2
We can make him better than he was before, we have the technology.

RE: 60 million dollar man? inflation adjusted
By Omega215D on 11/23/2011 5:16:31 PM , Rating: 3
My vision is augmented.

I never asked for this.

RE: 60 million dollar man? inflation adjusted
By ChronoReverse on 11/23/2011 6:57:07 PM , Rating: 2
I'd totally go for this. Well, as long as it's not easily hijackable by some hacker.

By ekv on 11/23/2011 9:06:37 PM , Rating: 2
Doesn't Google count eyeballs? Gives new meaning to the term.

two ideas...
By Souka on 11/23/2011 4:02:10 PM , Rating: 3
for power, use the eye motion itself (think kenetic watch) or blinking.

for transmission, use relay unit that can mount on eye-lid, powered by blinking. This would relay data to/from the main CPU on the person.

Great Article
By Thomaselite14 on 11/23/2011 7:55:52 PM , Rating: 3
I saw another bit about this yesterday, but this is much more in depth and as always the images are funny and spot on.

By solarrocker on 11/23/2011 3:56:42 PM , Rating: 2
Ok, know got nothing really to do with this lens idea. But somehow when I saw the picture I thought "Crap now they going to make a real Eyephone (Like in futurama )

Rainbow's End by Vernor Vinge
By lennylim on 11/23/2011 6:05:28 PM , Rating: 2
In the book he described augmented reality using, among other things, smart contact lenses.

Big jump
By ipay on 11/24/2011 7:25:55 AM , Rating: 2
Had just heard a news about some one in india putting gold and diamonds in these lenses

What does this mean?

Advertising banners?
By bupkus on 11/24/2011 2:29:48 PM , Rating: 2
I want to be the first to suggest these contact lenses be offered for free to customers who are willing to endure ad banners.
***struck down by lightning bolt***

Maybe some day these lenses will be available with image enhancing software. Then maybe my wife will look like uhh... who's hot these days?

Contact lens app rejected by Apple Inc.
"If someone wants to see porn they can buy an Android phone." Me please.

optical nerve stimulation
By Visual on 11/26/2011 7:06:40 PM , Rating: 2
This is all nice and interesting, but when we develop this technology we will probably prefer to have it implanted behind the eye, directly stimulating the optical nerve, or even deeper inside the brain. It will be a tougher invasive installation procedure, but will be a one time thing as opposed to the milder but constant daily inconveniences that go with contact lenses.
The cool thing about all that is, it may end up using similar technology. For example neuron stimulation can be done with optical signals as opposed to electricity, etc.

And the implant approach will not be limited just for vision augmentation. The same tech can be applied to hearing, giving us much more advanced hi-def cochlear implants alternative, or really any other sensory input.
And it can work in the other direction too, detecting neural activity with single neuron precision, making both a great BCI letting us control computers with toughts and a great research tool getting us a step closer to understanding our brains.

By callmeroy on 11/30/2011 9:17:30 AM , Rating: 2
I mean sure we all can very light-heartedly talk and joke about things like cybernetic implants, any other such "upgrades" that combine bio and technology together to enhance our bodies....

But if you sit there and honestly aren't full of it -- and really think hard about if you could go under the knife tomorrow if only you said "do it"...would you HONESTLY want to be among the "first generation" of people getting such new technology in, on or implanted with their bodies?

I know I wouldn't...who knows of the side effects? My luck a year after having this fancy contact lense research would reveal it causes cancer or something.

All I'm movies and stories it seems really cool...but in reality its scary stuff.

"Nowadays, security guys break the Mac every single day. Every single day, they come out with a total exploit, your machine can be taken over totally. I dare anybody to do that once a month on the Windows machine." -- Bill Gates

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