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June 2017
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Someday, getting your first brain implant might be a right of passage similar to getting your first cell phone. Your parents concerned that you’re getting it done to early, but all your friends have already gotten the electrodes injected and you can’t wait to chat with them via thought. And in this future, Elon Musk will look around and feel comforted that he’s managed to get humanity to merge with the machines, preventing our destruction in an AI takeover.

While this maybe sounds hokey, Elon Musk’s anxieties about an AI takeover have resulted in Neuralink, Musk’s startup that aims to build a brain-computer interface to directly connect our minds to computer intelligence. It’s a challenge that sounds like Musk has been watching too much sci-fi, but the basic elements of the technology actually exist today. Musk’s challenge lies in upgrading them from tech used in animals or on singular neurons into a connection that can actually integrate with the entire human brain.

“The simple conclusion is, the technology is existing, so it’s just a matter of how to scale up to a scale that is meaningful for Elon’s dream,” Junjie Yao, a brain imaging biomedical engineer at Duke University tells Inverse. “I’m not saying that this is an easy problem to solve, but it’s getting there.”

The two main challenges Musk faces are building electrodes small enough to connect at least a tenth of the neurons in the brain (which is something like 10 billion neurons) and making them gentle enough that the brain doesn’t react as if there are a whole bunch of things invading it, says Yao.

Connecting Neurons to Electrodes

Facebook is working to increase this connection by building better external brain sensors, but the best way to increase resolution is by inserting detectors into the brain, says Yao. Musk’s neural lace concept that inserts electrodes into the brain through the bloodstream, or similar techniques like neural dust that are the focus of Neuralink are all possibilities, says Yao.

In animals, researchers have been able to insert tens of thousands of electrodes into a brain by cutting open the skull, notably Tim Gardner, a member of the Neuralink team who worked on this tech in birds at Boston University. While getting tens of thousands of electrodes into a brain sounds like a lot, Yao points out that fully connecting the brain to a computer means being able to see what most of the neurons in the brain are saying.

A decision in the brain looks like a teacher trying to determine whether the majority of their students want an open-book or closed-book exam and all the students are talking at once, says Yao. “Eventually I can roughly figure out most students want an open book exam. It’s a chaotic system but it has its order.”

Musk talks about this as a problem in bandwidth. In an interview with Sam Altman of Y Combinator last year, he said: “We’re currently bandwidth-limited. We have a digital tertiary self in the form of out email capabilities, our computers, phones, applications. We’re practically superhuman. But we’re extremely bandwidth-constrained in that interface between the cortex and that tertiary digital form of yourself.”

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