Bendable Magnetic Interface

Tuesday, December 15, 2009

Computer users have been typing on keyboards and clicking on mice for more than 20 years. An experimental new interface under development at Microsoft could give them a completely new way to use their system.
Multi-touch and motion-sensing devices have recently emerged from research labs, offering new ways to operate computers. Microsoft's experimental tactile interface takes things further still, letting users interact by squashing, stretching, rolling, or rubbing.

At the base of the new device a "sensor tile" produces magnetic multiple fields above its surface. By detecting disturbances to these fields, the system can track the movement of a metal object across its surface, or the manipulation of a bladder filled with iron filings or a magnetic fluid. A user can drag a ball bearing across the surface to move a cursor across a computer's screen, or manipulate a ferrous fluid-filled bladder to sculpt 3D virtual objects.

Stuart Taylor of Microsoft Research Cambridge in the U.K. says that the surface can easily be reconfigured to allow for different forms of input. Working with Microsoft colleagues and with Jonathan Hook at Newcastle University, Taylor created arrays of 64 magnetic coils, each wrapped in a coiled wire, within a 100-square-centimeter sensor tile. "In essence, these are modeled on an electric guitar setup," says Taylor. "If you disrupt the field, this causes a current to be induced in the coil."

The researchers have also experimented with applying currents to the coils to induce physical effects on the objects placed on top of the sensor tile. This could allow an input device to also provide haptic force-feedback, says Taylor.

"It's an interesting concept which extends multi-touch to something more tangible," says Anthony Steed, a professor in the Virtual Environments and Computer Graphics group at University College London. To have a surface that lets users manipulate different objects would be of great interest, he says.

0 comments:

Post a Comment

Note: Only a member of this blog may post a comment.