Muscle-Bound Computer Interface

Forearm electrodes could enable new forms of hands-free computer interaction. Researchers at Microsoft, the University of Washington in Seattle, and the University of Toronto in Canada have come up with another way to interact with computers: a muscle-controlled interface that allows for hands-free, gestural interaction.

A band of electrodes attach to a person's forearm and read electrical activity from different arm muscles. These signals are then correlated to specific hand gestures, such as touching a finger and thumb together, or gripping an object tighter than normal. The researchers envision using the technology to change songs in an MP3 player while running or to play a game like Guitar Hero without the usual plastic controller.

Muscle-based computer interaction isn't new. In fact, the muscles near an amputated or missing limb are sometimes used to control mechanical prosthetics. But, while researchers have explored muscle-computer interaction for nondisabled users before, the approach has had limited practicality. Inferring gestures reliably from muscle movement is difficult, so such interfaces have often been restricted to sensing a limited range of gestures or movements. The new muscle-sensing project is "going after healthy consumers who want richer input modalities," says Desney Tan, a researcher at Microsoft. As a result, he and his colleagues had to come up with a system that was inexpensive and unobtrusive and that reliably sensed a range of gestures.

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GE Introduces Handheld Ultrasound Device

At the Web 2.0 Summit on Tuesday, GE CEO Jeff Immelt showed off a forthcoming hand-held ultrasound device called Vscan, calling it "the stethoscope of the 21st century." The device, which features a clam-shell design, with a small screen on one side and a circular input pad on the other, accepts a cable terminated in an ultrasound sensor. It could easily be mistaken for a cell phone. Immelt didn't provide any pricing information. He described the device as being digitally capable, despite it's lack of WiFi connectivity.

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Free will is not an illusion after all

Champions of free will, take heart. A landmark 1980s experiment that purported to show free will doesn't exist is being challenged.

In 1983, neuroscientist Benjamin Libet asked volunteers wearing scalp electrodes to flex a finger or wrist. When they did, the movements were preceded by a dip in the signals being recorded, called the "readiness potential". Libet interpreted this RP as the brain preparing for movement.

Crucially, the RP came a few tenths of a second before the volunteers said they had decided to move. Libet concluded that unconscious neural processes determine our actions before we are ever aware of making a decision.

Since then, others have quoted the experiment as evidence that free will is an illusion – a conclusion that was always controversial, particularly as there is no proof the RP represents a
decision to move.

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Cracking The Brain's Numerical Code: Researchers Can Tell What Number A Person Has Seen

By carefully observing and analyzing the pattern of activity in the brain, researchers have found that they can tell what number a person has just seen. They can similarly tell how many dots a person has been presented with, according to a report published online on September 24th in Current Biology, a Cell Press publication.

These findings confirm the notion that numbers are encoded in the brain via detailed and specific activity patterns and open the door to more sophisticated exploration of humans' high-level numerical abilities...

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