The PaperTab flexible tablet PC splits a tablet's windows into separate sheets of user-editable electronic paper that store a lot of data and communicate with one another. (Source: Human Media Lab, Queen's University)
DBrunermer, as we mentioned in the story, it's not clear how data is being transferred between one window and another. Since we can't see under the table, it's possible that there's some kind of hub where all the cables go where they communicate with each other, or it's possible there's some kind of wireless communication, possibly facilitated by electromagnetic tracking.
I agree it looks interesting, but I disagree on the company's definition of 'Intuitive'. Bending a page backward to flip pages is not really obvious, nor is folding / dog-earing for fast forward and reverse on video. But I digress.
The movie makes it seem like the desk is an important part of this invention. As in, it's the desk that knows where the pages are in relation to each other, not the paper itself. To me, that's a huge limitation. That's not portable, even a little bit. I think instead they should make an electronic binding, like a regular book, with all interconnects in the 'spline', and the CPUs/WiFi in the front or back 'cover'. It could probably be as think as two kindles, and then be useful and portable. But this is an interesting device, all in all.
In other words. The advantage of this system is about the same as having a tablet screen that is 3 feet by 4 feet (roughly the size of a desktop). Honestly, I think I would prefer the latter. Especially if I could roll it up and take it with me.
The advantages are being able to lay out documents on a table, as we can do when they're made of paper, instead of having to look at everything sequentially on one screen. I have often wished to be able to do this, especially with long technical documents. Anyone who writes or does hands-on editing of such documents--words or drawings--could appreciate this, as could an R&D team that collaborates on same.
An MIT research team has invented what they see as a solution to the need for biodegradable 3D-printable materials made from something besides petroleum-based sources: a water-based robotic additive extrusion method that makes objects from biodegradable hydrogel composites.
Alcoa has unveiled a new manufacturing and materials technology for making aluminum sheet, aimed especially at automotive, industrial, and packaging applications. If all its claims are true, this is a major breakthrough, and may convince more automotive engineers to use aluminum.
NASA has just installed a giant robot to help in its research on composite aerospace materials, like those used for the Orion spacecraft. The agency wants to shave the time it takes to get composites through design, test, and manufacturing stages.
The European Space Agency (ESA) is working with architects Foster + Partners to test the possibility of using lunar regolith, or moon rocks, and 3D printing to make structures for use on the moon. A new video shows some cool animations of a hypothetical lunar mission that carries out this vision.
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