Just saw these over at MIT’s Technology Review, and thought I’d share…
Touchable Holography:
Researchers at the University of Tokyo have developed a display that lets users “touch” holograms. Virtual objects appear to float in mid-air thanks to an LCD and a concave mirror. The sensation of touching the objects is created using an ultrasound device positioned below the LCD and mirror, creating an area of condensed air.
Augmented Reality Toys:
One student of France’s L’École de Design has developed a way to ‘hack’ toys using AR. His Scope display automatically recognizes ordinary toys that have been mounted onto platforms covered with hexagonal patterns, as seen below. With AR, these hexagons become interactive buttons that are used to make virtual modifications to the toy.
Augmented Reality Toys.v2 (Work in progress) from Frantz Lasorne on Vimeo.
Hyper-Real Virtual Reality:
Another French project, this time from INRIA and Grenoble Universities, could revive the dying science of Virtual Reality. Their new VR system, Virtualization Gate, tracks users’ movements very accurately using multiple cameras, allowing them to interact with virtual objects with never-before-reached realism. This interface demonstrates true physics, as well as crispy graphics, so a cluster of PCs is needed to perform the necessary image capture and 3D modeling.
Virtualization Gate: Siggraph 2009 Emerging Technologies
Uploaded by InriaGrImage. – Technology reviews and science news videos.
3D Teleconferencing:
Researchers at the University of Southern California will demo Headspin, a 3D teleconferencing system that maintains eye contact between a three-dimensional head and several participants on the other end of a connection.
To capture an image, a polarized beam-splitter “places” the camera virtually near the eyes of the speaker. The 3D display works by projecting high-speed video onto a rapidly spinning aluminum disk to generate an accurate image for each viewer.
HeadSPIN: A One-to-Many 3D Video Teleconferencing System from MxR on Vimeo.
Scratchable Input:
One researcher from Carnegie Mellon University will demonstrate his new scratch input technology. The system turns any surface into an instant input device by sensing the unique sound produced when a fingernail is dragged across it. The interface is small enough to fit into a mobile device (though I have concerns about calibration) and could thereby turn any surface the device is placed upon into an interface.