Nugent's comment points out a related, and large, emerging design opportunity. Here we have a design aimed at supporting better usability for differently abled people. At the same time, we have an aging population of baby boomers, many of whom are technologically literate. But as they (we) continue to age, it will become more difficult to navigate small type and small buttons. So there will be a big market for designs with user interfaces amenable to older people. Something to think about for the Amazons of the world. Maybe instead of broadening your SKUs with devices with slightly different feature sets, the smarter way to go would be different modes of UI, for differently abled user cohorts.
Getting into the Kindle and finding the correct connections was quite a task, I would immagine, since I don't think that they are giving away schematics to the Kindle just yet. So it was a great idea and a valuable project, thanks for sharing it with us.
I do wonder about the ultimate packaging, since open circuit boards just invite disasters. Making the package robust enough would probably be as big an effort as making the interface circuit, I would guess.
That's an ingenious adaptation of an existing product; well done.
I wonder, though, if one of the touch screen Kindles, which navigate by sliding a finger rather than poking at the small keyboard, would solve the problem for at least some, perhaps many, users with special needs.
It really would be good (at least for many of us) if Amazon built more capability into the USB connector on its Kindles.
Congrats on a practical, useful adaption of a product that solves an ergonomic anomoloy. It refreshing to see something other than turbo powered salad spinners and the like. This is an opportunity for Amazon to sell an auxillary control device that links to the Kindle via bluetooth or some other interface. Good job!
This solution points out the need for what, for want of a better phrase, I'd call consumer-ready large-type e-Readers. The Kindle actually does allow users to make the font larger, but I guess what I'm talking about is something that will be amenable to people who aren't quite so agile at using tiny keys, as is the case with the user for which this project was made.
Don't keep up on these devices enough to know, so have to ask: Where exactly, if at all, is Apple, et al on add-ons for disabled access to their products? To me, nowhere to be seen or priced out of the reach of most of us, thus the need for a homebuilt. Way to go Glenn!
This is a shameless plug for another Kindle reader solution for someone that cannot use their hands. PageBot is a Kindle accessory that allows one to turn pages by actuating a special switch. Since this is a product we couldn't hack into the Kindle, so we chose to make a universal mount with integrated mechanical actuators to actually press the next and previous page buttons -- short press for next and long press for previous. Yes, it seems silly to do it this way, but Amazon hasn't shown any interest in allowing/providing electronic access. Of course, if one has a computer with special access hardware they can use the free Kindle app.
This is a great story. The asthetics of the design might make the original Kindle designers and engineers cringe, but the sentiment and creativity is awesome. I wholeheartedly agree that Amazon and all of the other tablet vendors should do something, whether it's a special design or a special add-on, that can modify their products to better suit the needs of the visually impaired or others who might have trouble navigating traditional products.
Are they robots or androids? We're not exactly sure. Each talking, gesturing Geminoid looks exactly like a real individual, starting with their creator, professor Hiroshi Ishiguro of Osaka University in Japan.
For industrial control applications, or even a simple assembly line, that machine can go almost 24/7 without a break. But what happens when the task is a little more complex? That’s where the “smart” machine would come in. The smart machine is one that has some simple (or complex in some cases) processing capability to be able to adapt to changing conditions. Such machines are suited for a host of applications, including automotive, aerospace, defense, medical, computers and electronics, telecommunications, consumer goods, and so on. This discussion will examine what’s possible with smart machines, and what tradeoffs need to be made to implement such a solution.