It’s still very impressive. The EEG she uses only reads general thoughts: e.g. thinking about pushing a boulder. She can only really do specific actions with that: there’s no level of analog control (how much should this move), it’s just a single action (fire a fireball). The brain chip is likely much higher fidelity and therefore can read much finer signals. All the credit goes to the researchers, of course, who’ve spent the last decade researching and fine tuning this technology.
It’s still very impressive. The EEG she uses only reads general thoughts: e.g. thinking about pushing a boulder. She can only really do specific actions with that: there’s no level of analog control (how much should this move), it’s just a single action (fire a fireball). The brain chip is likely much higher fidelity and therefore can read much finer signals. All the credit goes to the researchers, of course, who’ve spent the last decade researching and fine tuning this technology.
Then they should be doing a demonstration that shows that. I don’t think Mario Kart generally requires fine tuned signals.
Mario card definitely not but maybe this cursor moving exercise does
We’ve had EEG cursors for decades. That shit isn’t impressive either.
On/off isn’t the same as being able to control the input incrementally.
EEG and neurolink are two different techs accomplishing quite different goals in the end,
There’s literally nothing about EEG that forces binary detection. Stop shilling for your slaver
Than why doesn’t the tech exist yet…?