The idea of humans controlling machines with their minds has spun off sci-fi blockbusters like “Pacific Rim” and entire subgenres of foreign film, but while today skyscraper-sized fighting robots exist only on the big screen, the Pentagon is building technology that could one day make them a reality.
How far we've come from the days, just one generation ago, where a computer filled
an entire room and was run on paper punch cards with slots cut into them, to billions of people carrying smart phones in their pockets many times more powerful the NASA computers that first sent man to the moon.
Today,
DARPA is working at a frantic pace to connect computer technology with the human brain in a way that previously was confined only to sci-fi books and movies. This new frontier, known as neural interface technology, works by embedding chips into the human body which then talk with any computer technology you direct it to. I think you can see where all this is leading to, can't you?
"And he causeth all, both small and great, rich and poor, free and bond, to receive a mark in their right hand, or in their foreheads: And that no man might buy or sell, save he that had the mark, or the name of the beast, or the number of his name." Revelation 13:16,17 (KJV)
FROM NEXTGOV: Today, DARPA, the Defense Advanced Research Projects Agency is selecting teams to develop a “neural interface” that would both allow troops to connect to military systems using their brainwaves and let those systems transmit back information directly to users’ brains.
The
Next-Generation Non-Surgical Neurotechnology, or N3, program aims to combine the speed and processing power of computers with humans’ ability to adapt to complex situations, DARPA said. In other words, the technology would let people control, feel and interact with a remote machine as though it were a part of their own body.
“From the first time a human carved a rock into a blade or formed a spear, humans have been creating tools to help them interact with the world around them,” said Al Emondi, the program manager at DARPA’s Biological Technologies Office. “The tools we use have grown more sophisticated over time … but these still require some form of physical control interface—touch, motion or voice. What neural interfaces promise is a richer, more powerful and more natural experience in which our brains effectively become the tool.”
DARPA began studying interactions between humans and machines in the 1960s, and while technology that merges the two may sound far-fetched, the organization already proved it’s possible.
Through its
Revolutionizing Prosthetics program, DARPA created a prosthetic limb that disabled veterans can control using an electrode implanted in their brain. The system gives users “near-natural” arm and hand motion while transmitting signals that mirror
a sense of touch back to their brain.
Now the agency wants to create a similar apparatus for able-bodied service men and women that doesn’t require surgical implants.
The N3 program is divided into two tracks: non-invasive interfaces that sit completely outside the body, and minutely invasive interfaces that could require users to ingest different chemical compounds to help external sensors read their brain activity. In both tracks, technologies must be “bidirectional,” meaning they can read brain activity and also write new information back to the user.
While those capabilities might fuel conspiracy theories about
government mind-reading and mind-control, Emondi told
Nextgov that won’t be the case—scientists are only beginning to figure out how the brain’s 100 billion neurons interact, so controlling those interactions is next to impossible. Instead, he said it’s better to think of N3 technology as means to use to a computer or smartphone without a mouse, keyboard or touch screen.
The program is solely focused on designing an interface for humans to connect with technology, not the technology itself, but according to Emondi, the use cases will likely be more high stakes than controlling prosthetic limbs.
He theorized the interface could be used to help a pilot coordinate a fleet of drones with their thoughts or troops to control a remotely deployed robot by using their brain’s motor signals. He added cybersecurity specialists could even connect to the system to monitor different parts of a computer network with their physical bodies.
Depending on how the interface is designed, that specialist might “hear” a cyberattack when it happens or “feel” it in the part of their body that corresponds to a section of the network. Stimulating different neurons create different sensations in the body, said Emondi, and participating teams must decide how their device will transmit signals back to the brain.
Given the intensely personal nature of the technology, DARPA is requiring designs to comply with a number of health and safety requirements, and also address any potential cybersecurity concerns. While today the project’s biggest ethical questions relate to safety and risk of testing, “if N3 is successful,” Emondi said, “I anticipate we could face questions related to agency, autonomy and the experience of information being communicated to a user.”
READ MORE
No comments:
Post a Comment