More exciting @Nature news today: an example of how AI and neuroscience continue to propel each other forward. (1/2)pic.twitter.com/ba6ZWjF95o
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Interesting work!
"This discovery validates distributional reinforcement learning – it gives us increased confidence that AI research is on the right track, since this algorithm is already being used in the most intelligent entity we're aware of: the brain." Earnest work, congratulations
Conclusion asks: Does this give rise to impulsivity, or depression? Selective memory: https://en.m.wikipedia.org/wiki/Lacunar_amnesia …
@DeepMind The complex interaction other neurochemical has on dopamine activity and learning is also fascinating and a good read. For example dopamine, acetylcholine, serotonin, and norepinephrine all have a fundamental role in learning and the human capacity to learn.
@DeepMind Furthermore something called AMP-activated protein kinase (AMPK) controls memory formation through a large amount of other interactions and physiological changes.
@DeepMind Interesting serotonin activity and binding to the serotonin 5ht1a and 5ht2c receptors increases dopamine neurotransmitter activity which dictates learning capacity.
Thus someone who is happier or more at peace internally will naturally respond to learning better and have healthier dopamine activity in the brain. Other receptors are involved but this is just a small treatise for my hero @DeepMind :)
@DeepMind
The receptors have different receptor sites such as Dopamine d1, d2, d3, serotonin 5ht1a, 5ht2a, 5ht2c and so on. The cross interaction dictates functionalities of receptor binding to its receptor sites and frequency of transmission which dictates learning capacity.
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