Certain properties attributed to “biological intelligence” may instead occur from substrate-independent physical dynamics.
I’m exploring whether some core properties commonly attributed to biological intelligence might instead reflect substrate-independent physical dynamics, rather than biology Concretely, in neural-scale measurements, we can interpret certain correlations as occuring from electrodynamic interactions that are not specific to any living tissue, and which may not be fully captured by any standard computational abstractions. Do you see a reason these dynamics must reduce to computation, and they represent additional physical constraints relevant for AGI architectures? I have a short written summary, and a longer text/audio treatment for those interested; I didn’t want to overload this list. Dorian Aur ------------------------------------------ Artificial General Intelligence List: AGI Permalink: https://agi.topicbox.com/groups/agi/Tca9651e0e10920d5-M5b658801ea602bc7462a5c05 Delivery options: https://agi.topicbox.com/groups/agi/subscription
