| |
|
 |
Touch Screens with Pop-up Buttons
Source: MIT Technology Review, 29 April 2009
Submitted by
Joanna Bawa
By Kate Greene
Touch-screen technology has become wildly popular, thanks to smart phones designed for nimble fingers. But most touch screens have a major drawback: you need to keep a close eye on the screen as you tap, to make sure that you hit the right virtual buttons. As touch screens become more popular in other contexts, such as in-car navigation and entertainment systems, this lack of sensory feedback could become a dangerous distraction.
Now researchers at Carnegie Mellon University have developed buttons that pop out from a touch-screen surface. The design retains the dynamic display capabilities of a normal touch screen but can also produce tactile buttons for certain functions.
Graduate student Chris Harrison and computer-science professor Scott Hudson have built a handful of proof-of-concept displays with the morphing buttons. The screens are covered in semitransparent latex, which sits on top of an acrylic plate with shaped holes and an air chamber connected to a pump. When the pump is off, the screen is flat; when it's switched on, the latex forms concave or convex features around the cutouts, depending on negative or positive pressure.
To illuminate the screens and give them multitouch capabilities, the researchers use projectors, infrared light, and cameras positioned below the surface. The projectors cast images onto the screens while the cameras sense infrared light scattered by fingers at the surface.
The idea of physically dynamic interfaces isn't new, and in recent years, researchers have explored using screens made from polymers that can alter their shape when exposed to heat, light, and changes in a magnetic field. However, these materials are still experimental and relatively expensive to make.
Simpler systems, such as those that use a flexible material like latex and a pneumatic pump, have also been explored by researchers in the past. However, these systems haven't had all the capabilities of the Carnegie Mellon project, Harrison says. He explains that the display is the first to combine moving parts (the pop-up buttons), display dynamic information, and be touch sensitive. Other projects and products usually achieve two of these three criteria, he says.
 Associated Link:
More: Touch Screens with Pop-up Buttons
|
|
|
|
|
'Internet addiction' linked to Depression
Source: BBC, 9 February 2010
There is a strong link between heavy internet use and depression, UK psychologists have said. Could *You* be more Usable?
Source: UN, 8 February 2010
Bet you could. Stowe Boyd on 'Steampunk' thinking about the Future of Computing
Source: Stowe Boyd's blog via Experientia, 6 February 2010
Are established metaphors of user experience holding us back from new ways of structuring our interaction through computers? Nokia's User Experience Programme
Source: UN, 5 February 2010
Nokia has put together a rich and informative website covering the key elements of user experience. Interfaces magazine: latest issue available now
Source: HCI News Service, 4 February 2010
The latest issue of Interfaces is now available in pdf format, free from the Interaction Website. A Lighter Brigade of Chargers
Source: UN, 3 February 2010
Lots of gadgets, one charger. At last. Mobile Touch Screens could soon Feel the Pressure
Source: MIT Technology Review, 2 February 2010
A quantum switch could add pressure sensing to mobile screens. Usability, Usability, Usability: why the iPad will Succeed
Source: Econsultancy, 1 February 2010
The tech critics love it, hate it, love it again, shrug it off. What do usability experts say? British Airways - at last some good news
Source: Loop11, 30 January 2010
In a recent website usability study for the world's leading airlines, the British Airways website proved to be the most user friendly, with Malaysia Airlines and Virgin Atlantic having the lowest user experience rating. Computation of Emotions in Man and Machine
Source: Royal Society, 29 January 2010
Advances in computer technology now allow machines to recognise and express emotions, paving the way for improved human-computer and human-human communications.
|
|
|