Very interesting! Maybe once we understand the structure, we can recreate what’s behind the structure. Not sure if that’s a good thing, but it certainly is intriguing.
I don’t think we need to understand tge structure. Just create a fidel digital copy and run it according to electrochemical rules we have from physics and I believe a largely intact consciousness will emerge.
But wouldn’t understanding the structure assist is rebuilding a mechanical version and, thus, recreating the consciousness into an artificial mechanism (such as a Terminator-esque android)?
It depends what you mean by “understand”. If we have an intact digital connectome and we execute its circuitry in the right kind of simulator. A consciousness would ptobably emerge out of it. But I wouldn’t call this “understanding”. Trillion neurons and other structures are so complex and interwined, it strains the very idea of “understanding” how it works.
At least not without major aids to break it down into smaller easier to understand chunks.
Very interesting! Maybe once we understand the structure, we can recreate what’s behind the structure. Not sure if that’s a good thing, but it certainly is intriguing.
I don’t think we need to understand tge structure. Just create a fidel digital copy and run it according to electrochemical rules we have from physics and I believe a largely intact consciousness will emerge.
But wouldn’t understanding the structure assist is rebuilding a mechanical version and, thus, recreating the consciousness into an artificial mechanism (such as a Terminator-esque android)?
It depends what you mean by “understand”. If we have an intact digital connectome and we execute its circuitry in the right kind of simulator. A consciousness would ptobably emerge out of it. But I wouldn’t call this “understanding”. Trillion neurons and other structures are so complex and interwined, it strains the very idea of “understanding” how it works.
At least not without major aids to break it down into smaller easier to understand chunks.