Woman Controls a Fighter Jet Sim Using Only Her Mind

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Woman Controls a Fighter Jet Sim Using Only Her Mind Empty Woman Controls a Fighter Jet Sim Using Only Her Mind

Post by Guest on Fri Mar 06, 2015 6:54 pm

Jan Scheuermann uses a mind-controlled robot arm to eat a chocolate bar.
UPMC/University of Pittsburgh Schools of the Health Sciences
All Jan Sheuermann wanted to do was feed herself some chocolate. She ended up piloting the world’s most expensive fighter jet.
Sheuermann is quadriplegic, unable to move her arms and legs due to a neurodegenerative disease. So when scientists from the military’s future-science arm Darpa and the University of Pittsburgh’s Human Engineering Research Laboratories approached her in 2012 about plugging her brain into a robotic arm, the most she hoped for was the ability to serve herself some candy. Two years later, towards the end of her stint as a neuromotor guinea pig, the scientists changed the game. Instead of connecting Sheuermann’s brain interface to a robotic arm, they connected her to a flight simulator. She’d use the same neural connections to pilot an F-35 Joint Strike Fighter—the military’s next-gen attack jet. And despite the fact that the agency unveiled the flight at a February 24 security conference called “Future of War, Darpa officials insist Sheuermann is not a test pilot for a new generation of mind-controlled drones.
No, this research was conducted under Darpa’s Revolutionizing Prosthetics research track, which is geared towards better robotic arms for injured veterans. “We are thinking about exactly how to restore function after injury, how the brain can be used to actuate devices,” says Justin Sanchez, the head of Darpa’s prosthetics research. He says projects like this are helping push the limits of what is possible with artificial neural circuitry.

The idea of a neural interface for computers isn’t new. The first brain-controlled videogames go back to 2006, when a team of scientists at Washington University in St. Louis built an interface that let a teenager with epilepsy control Space Invaders. The idea is that instead of using purpose-specific neurons to control a purpose-specific device—like a cochlear implant, or some prostheses—you could build an interface between the brain and any computer, and then the computer could do a range of tasks—from gripping a candy bar to performing a barrel roll.
Sheuermann’s imaginary fighter jet flight wasn’t her first foray into controlling virtual objects with her mind. She trained to use the robot arm by controlling a virtual one on a computer screen. Her neural activity gets picked up by a four-millimeter-wide sensor embedded in her brain, 96 microelectrodes—Sanchez calls them “pips”—each trained on a different cell. “When you put them on the motor cortex, the pips get very close to the cell body and can record whenever one of those cells fire,” he says. His team simply reprogrammed the output of the electrodes so that instead of controlling the movements of a robotic arm, they controlled the altitude, pitch, and roll of an onscreen fighter jet. “I think what we’re getting to is understanding the processing that goes into the brain,” he says.
But let’s not get too far ahead of ourselves. Because if Darpa is, hypothetically speaking of course, trying to build squadrons of brain-powered fighter drones, they’ve got a long way to go. The video below shows Sheuermann’s shaky flight skills. If she was in a real combat simulation, she’d be aced by bogies in no time. And there’s no way she’d make it past the mid-air refueling challenge.

Granted, Sheuermann is not a pilot in real life. (She writes mysteries, actually.) But the project faces even bigger technical challenges. Sanchez admits that he and his co-investigators still don’t know exactly how neurons control movement. And even if one day they were to figure our which neurons triggered which motions, these connections rewire themselves day to day, as the brain gets better at new tasks. This matters when using those neurons to control things outside the body, because the microelectrodes on the interface are each  assigned to a specific group of cells.
Practical applications notwithstanding, some in the brain-computer interface field saw more publicity than progress in Sheuermann’s test flight. “I am interested in helping people with neurological disorders become independent and gain control of their own lives. This press item is more in the entertainment and video game sphere, based on what I see,” writes John Donoghue, a pioneer in brain-computer interfaces at Brown University, in an email. Donoghue’s beef is that the Darpa video comes without peer-reviewed research to back it up. But Sheuermann’s doctors say they have a paper in press—it’s just not published yet. Darpa’s announcement surprised the researchers at the University of Pittsburgh, who worry that the government agency’s gun-jumping might compromise the acceptance of their research into the scientific canon. (Academic journals are notoriously touchy over people discussing research before it’s published.)

The real achievement here is reprogramming the same neuronal wiring that controlled a robotic arm to fly a virtual fighter jet. “Fundamentally it’s demonstrations like this that change the way that we think about the way brain does work in the world,” says Sanchez. It’s an early step, but he says this raises interesting questions about whether humanity could one day outgrow physical interfaces with its machines. This is about more than just video games—it’s about finding a fundamentally new way to interact with the virtual world, and maybe even the re


http://www.wired.com/2015/03/woman-controls-fighter-jet-sim-using-mind/


Truly mind boggling what they can do today with now thought control.
Okat she was not the best pilot, but lets be honest for a first attempt it is very amazing.
I suppose the next worry is if the next step is being able to control other human minds?

No

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Woman Controls a Fighter Jet Sim Using Only Her Mind Empty Re: Woman Controls a Fighter Jet Sim Using Only Her Mind

Post by Guest on Fri Mar 06, 2015 10:22 pm

It would take em forever to be able to take over your mind Bras....the first half of eternity would be spent finding it

the second would be unravelling it Razz

seriously this is interesting....
and control by brian power could be the big thing in the near future..

as for controlling anothers mind...I dunno....at present you would have to be "wired together"

or at least BOTH would have to wear a "device" of some sort....so for most intents and purposes there would have to be some sort of "cooperation"

even if no device was eventually needed there remains the question of what happens when one mind attempts to invade another...would a determined mind be able to "turn the tables "???

remember ..hypnosis...no mater whom practiced by CAN NEVER interfere with any alert and determined mind....

no one...could EVER hypnotise me against my wishes...

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Woman Controls a Fighter Jet Sim Using Only Her Mind Empty Re: Woman Controls a Fighter Jet Sim Using Only Her Mind

Post by Guest on Fri Mar 06, 2015 11:09 pm

darknessss wrote:It would take em forever to be able to take over your mind Bras....the first half of eternity would be spent finding it

the second would be unravelling it Razz

seriously this is interesting....
and control by brian power could be the big thing in the near future..

as for controlling anothers mind...I dunno....at present you would have to be "wired together"

or at least BOTH would have to wear a "device" of some sort....so for most intents and purposes there would have to be some sort of "cooperation"

even if no device was eventually needed there remains the question of what happens when one mind attempts to invade another...would a determined mind be able to "turn the tables "???

remember ..hypnosis...no mater whom practiced by CAN NEVER interfere with any alert and determined mind....

no one...could EVER hypnotise me against my wishes...

That did make me laugh the first part:lol!:
As seen from the article there is much to understand here for example:



Sanchez admits that he and his co-investigators still don’t know exactly how neurons control movement. And even if one day they were to figure our which neurons triggered which motions, these connections rewire themselves day to day, as the brain gets better at new tasks. This matters when using those neurons to control things outside the body, because the microelectrodes on the interface are each  assigned to a specific group of cells.

So there is a long way to go to resolve all these problems but it is fasicanting.
Agree in the difficulties in controlling humans.

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