Earlier this week, Musk indicated he was one step closer to this goal – and had plans to prove it during a live webcast at 3pm Pacific Time on Friday afternoon. Neuralink is far from its ultimate objective of making brain surgery easier and safer, such as, LASIK. But musk wrote Twitter The company was set to show a working “V2” of the device introduced to the public last summer. He was the first said That display will “show neurons firing in real time. Matrix in Matrix.”
Neuralink’s device is a small computer chip, meant to be stitched into the brain by a “sewing-machine-like” robot on a network of superfine electrode-studded wires. It is believed to take signals in the brain and then translate them into motor control. Many people in one area imagine controlling things like prosthetic organs using these neural interfaces, or perhaps to interact with our gadgets. Musk, in typical Muskian fashion, has some boulder ideas. He describes Neuralink’s project as, overall, “helping achieve symbiosis with artificial intelligence”.
This is quite a task, and it is unclear what the Friday event is going to demonstrate. (Neuralink did not respond to a request for comment.) Presumably, Musk gets a chance to convince people that the company is making real progress towards its goals, however ambitious, and that it is ahead of its rivals. .
“As to whether there is a lot of uncertainty in the entire region [Neuralink] “He is never going to succeed,” says Sid Neider, a former neuroscientist at the French National Center for Scientific Research. Clinical neural interfaces are quite difficult, but Neuralink has places trained to harness the everyday person’s brain power with highly invasive surgery. That, to Coider, sounds like a moon pill. “Or even further, such as a jupiter shot.”
Researchers have been spearheading the brain-computer interface for decades. The Department of Defense joined in the 1970s, inspired by the philosophy of a supernatural army. Other neuroscientists have tried to develop the devices in a clinical setting. Brain implants show some promise in restoring movement to someone whose spinal connections have been severed, or in controlling shocks associated with Parkinson’s.
In recent years, technologists have also become interested in neural interfaces. If these devices can help people control an artificial arm, the thought goes away, that they can also let people “control their smart home devices without voice commands without” using a keyboard may allow. A brain-computer interface can, in theory, unlock an entirely new way for humans to interact with the digital world.
The musk is not merely chasing this vision. Brentree founder Brian Johnson has been working for years at a similar startup called Kernel. Paradromics has started working on medical-facing neural interfaces, according to its CEO Matt Engle, “building on a scale that is 10 times higher than Neuralink.” Mark Zuckerberg is also invested in brain-computer interfaces. At Facebook’s developer conference in 2017, the company demonstrated a technology that would allow people to “listen with their skin”, and last year, Facebook acquired the startup CTRL Labs, a non-active nerve Is building the interface.