Inability to distinguish noice and patters is true only for BBs. If we are real humans, we can percieve noice as noice with high probability. But we don’t know if we are BB or real humans, and can’t use our observations about the randomness to solve this.
Momentary BB (the ones which exist just one observer-moment) has random thought structure, so it has no causal connection between its observations and thoughts. So even if it percieve noice and think noice, it is just a random coincidence.
However, there is a dust theory. It claims that random BBs can form chains in logical space. In that case, what is noice for one BB, can be “explained” in the next observer moment—for example random perception can be explained as static on my home TV. There is an article about about it https://arxiv.org/pdf/1712.01826.pdf
Inability to distinguish noice and patters is true only for BBs. If we are real humans, we can percieve noice as noice with high probability. But we don’t know if we are BB or real humans, and can’t use our observations about the randomness to solve this.
Yes, that’s the crux. In my view, we can reverse…
… as « Ability to perceive noise means we’re not BB (high probability). »
Can you tell more about why we can’t use our observation to solve this?
Momentary BB (the ones which exist just one observer-moment) has random thought structure, so it has no causal connection between its observations and thoughts. So even if it percieve noice and think noice, it is just a random coincidence.
However, there is a dust theory. It claims that random BBs can form chains in logical space. In that case, what is noice for one BB, can be “explained” in the next observer moment—for example random perception can be explained as static on my home TV. There is an article about about it https://arxiv.org/pdf/1712.01826.pdf
Thanks 👍
(noice seems to mean « nice », I assume you meant « noise »)