olfactory: when you are shitting, you don't smell your own shit because you know you are shitting. But when someone else shits, you sense the unpleasant smell
I wonder whether re-afference in zebra fish isn't screwed up somehow by paralysis? It may work to get them to the various red islands anyway, but since they can probably feel that they aren't really moving their tails, they would feel somehow weird. That may affect their behavior in some way.
I am intrigued by your insights. I would think your talents would be greatly accelerated by substituting your animal experiments with AI sub routines. Your ability to absorb subtle neural functions would do well with combinations of simple AI algorithms. Hook up with Nvidia AI tensorflow AI functions and build complex combinations of simple neural network base functions.
When he said that stuff about his voice. Dude, I felt that. You are amazing, you got this. I am fascinated.
That adaptation to gain is super interesting! Not a dumb reflex at all!
This is deep
olfactory: when you are shitting, you don't smell your own shit because you know you are shitting. But when someone else shits, you sense the unpleasant smell
the brain learns that it's fine if and only if YOU are shitting
I vote for your cover!
I wonder whether re-afference in zebra fish isn't screwed up somehow by paralysis? It may work to get them to the various red islands anyway, but since they can probably feel that they aren't really moving their tails, they would feel somehow weird. That may affect their behavior in some way.
I am intrigued by your insights. I would think your talents would be greatly accelerated by substituting your animal experiments with AI sub routines. Your ability to absorb subtle neural functions would do well with combinations of simple AI algorithms. Hook up with Nvidia AI tensorflow AI functions and build complex combinations of simple neural network base functions.
How does that study the actual animals? Wouldn't it study the AI algorithms instead?