Hi in10did(Wayne), The bluetooth version of your keyboard sounds awesome! Have you thought about open sourcing the design to allow makers to explore physical computing projects with it? What's the target cost you plan to sell it for? Being at CES is a good way to drum up consumer interest in the product. I'll be watching the marketing campaign from the sidelines.
Thanks, I'm glad that you see value in this technology. I'm currently designing a Bluetooth version of the keyboard that I plan to market early next year. It is based ob the USB design on the front page of our website www.in10did.com . I really hope that it will help people who want physical keys for touch-typing on the back of their phones and tablets and may not be able to use virtual keyboards. We plan to launch it at CES in January, booth 36178. If you are coming to Vegas, I hope you stop in and try it!
Many people hunt & peck because the standard keyboard layout just doesn't make any sense. If you try to think about it logically, you would never come up with this arrangement. That was really why I came up with this solution, the alphabet can be produced with ten fingers using our thumbs to shift the letters. Ten single presses, eight with one thumb and the last eight with the other thumb. Press both thumbs for upper-case on the next letter. It worked out so perfectly that I thought this must be the way typing the alphabet was intended. So I call it IN10DID to reflect that idea. Perhaps only people with special needs will be motivated to learn it but I believe it will be useful for many more people. Thank you all for taking the time to view and comment on my effort here!
I can see where this device may be of benefit to a special needs user, but only to a special needs user.
I hunt and peck and seldom are the times when my thoughts and fingers are traveling at the same speed. I compose, correct and edit at a pedantic speed so shortcuts are rarely an issue. If I had to memorize another sequence of key strokes to accomplish any writing task, I would not like it. But then I prefer designing in 2-D CAD as opposed to solid modeling, so I am an indangered species and will never be the target audience for any product.
I had a friend in Lincoln, NE, who would do his computing walking down the street, using a small one-eye monitor mounted on spectacles, and a one-hand multi-touch keyboard. It was interesting to see him walking along "kneading" the "potato" and gazing into the high horizon.
It is completely understandable that many people who have developed skills touch-typing will not be swayed to learn something new unless to provides significant advantages. This is disruptive technology and serves best in places where QWERTY in not a good option such as on the steering wheel or a game controller. Likewise it can improve computer access for folks with special needs. It might not mean much for some people but could mean the world for others. For over 100 years, people have been trying to improve upon QWERTY so it isn't an easy thing to do. That's what makes the effort worth while.
Hear what some people thought about it when we showed it at the Florida state fair.
I think we do get locked into convention but there is no doubt a keyboard applied to some devices; i.e. steering wheel, etc would benefit from the simplification this one would provide. I, like others who have commented, can see how it would greatly benefit individuals who are disabled. I learned to type when I was in the 5th grade on a very old "manual" typewriter. I'm not too sure I could, or would want to adapt to the ten key device demonstrated.
The final showdown is under way in our first-ever Gadget Freak of the Year contest. Who will win an all-expenses-paid trip to the Pacific Design & Manufacturing Show? It's up to you, dear readers, to tell us.
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.