Elon Musk Thinks Neuralink Could Merge Humans With AI; Neuroscience Says Wait
According to Musk, Neuralink's goal is to build a "scalable high-bandwidth BMI system". Thus far, the company's scientists and engineers have replicated three cutting-edge inventions.
In 1985, the science fiction writer Bruce Sterling wrote of future worlds inhabited by two groups of humans. The ‘shapers’ believed in altering their bodies using biotechnology and genetic engineering to achieve superhuman capabilities . The ‘mechanists’ used mechanical and electronic alterations to gain the same brain-body advantages.
It’s safe to say that Sterling wasn’t too far off the mark – at least for brain-related modifications. Nowadays, neuroscientists use both genetic and mechanical modifications to study as well as manipulate brain activity. But Elon Musk seems to prefer the mechanists’ approach with his new venture, Neuralink.
Musk delivered a speech followed by a slew of announcements about the technologies Neuralink was working on towards building an advanced brain-machine interface (BMI), on July 16 in California.
A BMI is a broad term for any communication pathway or device that allows humans and animals to translate their brain signals into commands that machines can execute.
According to Musk’s preprint paper, Neuralink’s goal is to build a “scalable high-bandwidth BMI system”. Thus far, the company’s scientists and engineers have replicated three cutting-edge inventions. The first is an ultra-thin electrode to be inserted inside a brain to relay electrical signals between the brain and a computer. The second is a robotic instrument to carefully implant the electrodes. The third is a small chipset to amplify and manipulate the signals.
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A closeup view of the machine that will be used to implant the electrodes. Photo: Neuralink/YouTube
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This technology, Musk said, may eventually help humans merge and communicate with an artificial intelligence (AI). This is a grandiose claim that does little to counteract both the absence of important details in Neuralink’s preprint paper and the fact that Neuralink has essentially repeated research that has already been conducted.
In fact, there is a chasm between the contents of Neuralink’s paper and the possibilities Musk presented in his speech. The road to these possibilities is long and hard, and not without problems. And even as the Neuralink paper is a relatively more detailed source of information than the televised announcement, it can still benefit from a good deal of unpacking in terms of important data that hasn’t been shown and whether Neuralink’s achievements are truly novel or game-changing.
As in many other important things in our world, the devil (or demon, a term Musk used to talk about AI in 2014) is in the details.
To build any BMI system, we need four things:
1. A set of electrodes that can be inserted into the brain to ‘read’ and ‘write’, i.e. record and deliver, electrical activity to neurons around the implant site
2. A device to transform these analog waveform signals into digitised information
3. A wired or wireless connection from the top of the skull
4. A connected computer to analyse and transmit the appropriate signals back into the brain, effectively creating a closed-loop system
It’s very difficult to build a system in which all these components play well with brain tissue. Scientists have been working on ways to tap directly into brain activity since the 1920s. As a neuroscientist who studies electrical activity at the level of neurons, I find it fascinating to decode the activity of neuronal networks. But even with my limited familiarity with BMIs, some of Neuralink’s pieces don’t seem to fit the puzzle very well.
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