The scientists at the University of Arizona say their prototype "holographic three-dimensional telepresence" is the world's first practical 3D transmission system that works without requiring viewers to wear special glasses or other devices. The research is published in the journal Nature.
The US Department of Education announces the Digital Badges for Learning competition which asks for prototypes for educational digital badges that will help teachers and students keep track of what they have "mastered".
The following is a rounded, 360 degree display that can be viewed at any angle. Sony sees potential use of this technology in the medical imaging industry, as well as marketing/signage.
"In one prototype, a slide holding a finger prick of blood can be inserted over the phone's camera sensor. The sensor detects the slide's contents and sends the information wirelessly to a hospital or regional health center. "
This article introduces you to the world of 3D printing in a rather amusing way. Though it doesn't mention about its application in the education field directly, use your imagination.
The developer kit would especially be helpful to developers planning on using the device to develop augmented reality applications. Typically, augmented reality refers to an enhanced (and, sometimes, fantastic) vision of reality.
This would also be very powerful for engineering applications, virtually "adding" prototypes from solidworks or 3D modeling programs to see their impact on objects or spaces.
I also see a cool educational aspect where students could build theoretical bridges, building models, or art installations to see how they would impact the real space they might inhabit.
just the latest developments in flexible display technologies that are coming. Looks like Samsung and Nokia are already demonstrating their implementations at trade shows, and we may begin seeing these as early as 2012