Slashdot Mirror

← Back to Stories (view on slashdot.org)

Canadian Researchers Debut PaperTab, the Paper-Thin Tablet

Posted by samzenpus on from the expensive-origami dept.

redletterdave writes "The PaperTab, which looks and feels just like a sheet of paper, may one day overtake today's tablet. Developed by researchers at the Human Media Lab at Queen's University in Ontario, Canada, the PaperTab features a flexible, high-resolution 10.7-inch plastic touchscreen display built by Plastic Logic, the company borne from Cambridge University's Cavendish Laboratory, and relies on a second-generation Intel Core i5 processor to turn what looks like a sheet of white paper into a living, interactive display. Unlike typical tablets akin to Apple's iPad, the idea of PaperTab is to use one app at a time, per PaperTab. To make tasks easier, users would own 10 or more PaperTabs at once and lay them out to their liking; with multiple tablets to separate your applications, PaperTab relies on an interface that allows you to combine and merge elements from disparate applications with intuitive dragging, dropping, pointing, and folding."

19 of 142 comments (clear)

  1. Video by Anonymous Coward · · Score: 5, Informative

    http://www.youtube.com/watch?v=81iiGWdsJgg&feature=player_embedded

  2. Re:Apple invented paper. by Anonymous Coward · · Score: 5, Funny

    Only paper with rounded corners.

  3. John Cleese to the white courtesy phone. by mjwx · · Score: 4, Funny

    the Paper-Thin Tablet

    But sir, it's paper-thin.

    --
    Calling someone a "hater" only means you can not rationally rebut their argument.
  4. Re:Hopefully they go wireless... by Osgeld · · Score: 4, Interesting

    where do you put the battery, where do you put the wifi or cel hardware, where do you put the cpu that is currently sitting on the floor, why does my 800mhz rooted nook simple touch have a faster touch response than an i5?

  5. Display, not tablet by Darkness404 · · Score: 4, Insightful

    We've had nice paper thin displays for years now. But a thin display doesn't mean a thin tablet. Until we have thin CPUs and thin RAM sticks, and thin flash memory and thin connectors, we aren't going to have a paper thin tablet.

    When you get all the components you need for a tablet you end up with something just as thick as what we've got on shelves today. By no means thick, but not paper-thin.

    --
    Taxation is legalized theft, no more, no less.
    1. Re:Display, not tablet by rossdee · · Score: 3, Insightful

      What about a paper thin battery. (Thats going to last more than a few minutes)

    2. Re:Display, not tablet by Nyder · · Score: 4, Funny

      Actually, they're pretty close on that front.

      A battery that last more then a few minutes? Sweet, about time.

      --
      Be seeing you...
  6. The actual link by Anonymous Coward · · Score: 4, Informative

    Since the douchetard du jour forgot to, I guess it's up to old Anonymous Cowherd to link to the actual website (rather than the warmed-over blogruel we were served):

    http://www.humanmedialab.org/papertab

    You can thank me by clicking 'reply' and composing a note of thanks.

  7. Re:Epaper and OLED has always been flexible by nospam007 · · Score: 3, Insightful

    "since the day they were born in the lab, but there is more to a computer than its display, wheres the flexible and paper thin battery, the flexible core i5, the flexible ram rom and flash?"

    They are in the basement computer, doing all the work and sending the result to the screen, like ...how would you call it... a thin client. :-)

  8. Re:Chips are WAY thinner then paper by SecurityTheatre · · Score: 5, Insightful

    The thickness of the wafers onto which chips are etched is NOT 7 microns. The standard wafer thickness is about 775um, or just about 1mm. That doesn't count the substrate onto which the electrical connections must be soldered.

    It's also extremely fragile at this thickness, and a big portion of placing it onto a ceramic or organic plastic substrate is so that it doesn't crack.

    With a plain wafer, you can crack it by gently rapping it with your knuckle, or dropping it gently on a hard surface.

    Thickness may not be the issue, but durability is. So is heat dissipation. A modern chip is designed to dissipate heat rapidly, among other things. There are all sort of problems beyond flexibility that plague this particular engineering problem.

  9. Do not want... by mark-t · · Score: 3, Insightful

    Sure, it's cool that it's paper thin... but a) it's black and white, not color; and b) the refresh rate, if the video is any indication, seems abysmal for anything but static displays.

    Can somebody please tell me what possible advantage this has over an e-ink reader?

    --
    File under 'M' for 'Manic ranting'
    1. Re:Do not want... by mumblestheclown · · Score: 4, Insightful

      What POSSIBLE advantage might the eventual production outcomes of this R&D prototype have? If you can't see that you are suffering from a severe lack of imagination.

  10. Re:Epaper and OLED has always been flexible by tooyoung · · Score: 3, Insightful

    wheres the flexible and paper thin battery, the flexible core i5, the flexible ram rom and flash?

    They are in the basement computer, doing all the work and sending the result to the screen, like ...how would you call it... a thin client. :-)

    Oh, cool! So the thin client doesn't even need a battery?

  11. Re:Hopefully they go wireless... by phantomfive · · Score: 4, Insightful

    The wires are what lets them do it.

    Basically each 'tablet' is just a display, with all other hardware removed. The wires are connected to an actual CPU, which does all the processing, etc.

    In other words, these guys bought a display and wired it up. Woohoo.

    --
    "First they came for the slanderers and i said nothing."
  12. Looks like a good idea... by TeknoHog · · Score: 4, Funny

    ..on paper.

    --
    Escher was the first MC and Giger invented the HR department.
  13. Concept by TheLink · · Score: 3, Interesting

    I prefer a different concept - one where humans are augmented and become superhuman rather than merely the environment becoming magical.

    For example, cameras+ wearable displays + brain-computer interfaces. Control by special gloves, eye-blink gestures, and/or thought-macros. Then the "screen" can be pretty big even though it is physically small and doesn't consume as much power as a huge display.

    Once you have that, you have virtual eidetic memory, virtual telepathy and telekinesis. Most of the tech is there or nearly there. One of the major problems might actually be Copyright Law - it conflicts with having eidetic memory especially if you want to share it with others. The **AA won't be happy with a penny for your thoughts, or their thoughts ;).

    Permanent video+audio recording at low/mid res, with high def/res in a ring buffer (past X minutes), so you can have the past X minutes in high def if you need it for whatever reason. Configurable image and audio recognition. Context awareness (time + location+ surroundings+ history) + super PDA features.

    Military edition might have gun muzzle detection, camouflage countermeasures, automatic "crack-thump" sniper location, UWB radar+comms, range gated vision (the latter two can give away your position to enemies that are suitably equipped[1]).

    [1] That said, electronic devices emit signals that can be detected if you have enough fancy stuff.

    --
  14. A4-sized displays by flux · · Score: 3, Interesting

    The display seems pretty large. Does this mean we are finally going to get proper devices for reading PDFs?

  15. Re:Hopefully they go wireless... by docmordin · · Score: 3, Interesting

    Including a processor on the backside of the PaperTab wouldn't likely be a huge problem, as there are multiple research groups investigating ultralow-power, flexible, organic electronics, e.g.,

    G. H. Gelinck, et al., "Flexible active matrix displays and shift registers based on solution-processed organic transistors", Nature Mater., 3: 106, 2004
    K. Nomura, et al., "Room-temperature fabrication of transparent flexible thin-film transistors using amorphous oxide semiconductors", Nature, 432: 488-492, 2004
    B. Yoo, et al., "High-performance solution-deposited n-channel organic transistors and their complementary circuits", Adv. Mater., 19: 4028, 2007
    H. Klauk, et al., "Ultralow-power organic complementary circuits", Nature, 445: 745, 2007
    W. Xiong, et al., "A 3-V, 6-bit C-2C digital-to-analog converter using complementary organic thin-film transistors on glass", IEEE J. Solid State Circuits, 45: 1380-1388, 2010
    H. Marien, et al., "A fully integrated delta sigma ADC in organic thin-film transistor technology on flexible plastic foil", IEEE J. Solid State Circuits, 46: 276-284, 2011
    K. Myny, et al., "Unipolar organic transistor circuits made robust by dual-gate technology", IEEE J. Solid State Circuits, 46: 1223-1230, 2011
    K. Myny, et al., "An 8-bit, 40-instructions-per-second organic microprocessor on plastic foil", IEEE J. Solid State Circuits, 47: 284-291, 2012

    Beyond that, there are already flexible batteries on the market.

  16. true ebook by locofungus · · Score: 3, Interesting

    Couple of hundred of these bound together in a hardback cover, maybe with a processor and memory in the spine, maybe just a connector.

    Kindle is great for fiction, which is linear, but less good for reference books where you often want to flip back and forwards etc.

    Now you can have the space advantages of ebooks with the UI advantages of a proper book.

    Tim.

    --
    God said, "div D = rho, div B = 0, curl E = -@B/@t, curl H = J + @D/@t," and there was light.