this post was submitted on 02 Aug 2023
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In my humble opinion, we too are simply prediction machines. The main difference is how efficient our brains are at the large number of tasks given for it to accomplish for it's size and energy requirements. No matter how complex the network is it is still a mapped outcome, just the number of factors weighed is extremely large and therefore gives a more intelligent response. You can see this with each increment in GPT models that use larger and larger parameter sets giving more and more intelligent answers. The fact we call these "hallucinations" shows how effective the predictive math is, and mimics humans abilities to just make things up on the fly when we don't have a solid knowledge base to back it up.
I do like this quote from the linked paper:
That is to say, you don't need complex solutions to map complex problems, you just need to have learned how you got there. It's never purely random attempts at the problem, it's always predictive attempts that try to map the expected outcomes and learn by getting it right and wrong.
Which is to say that it has a predictive model based on previous games. This does not mean it must rigidly follow previous games, but that by playing many games it can see how each move affects the next. This is a simpler example because most board games are simpler than language with less possible outcomes. This isn't to say that the crow is now a grand master at the game, but it has the reasoning to understand possible next moves, knows illegal moves, and knows to take the most advantageous move based on it's current model. This is all predictive in nature, with "illegal" moves being assigned very low probability based on the learned behavior the moves never happen. This also allows possible unknown moves that a different model wouldn't consider, but overall provides what is statistically the best move based on it's model. This allows the crow to be placed into unknown situations, and give an intelligent response instead of just going "I don't know this state, I'll do something random". This does not always mean this prediction is correct, but it will most likely be a valid and more than not statistically valid move.
Overall, we aren't totally sure what "intelligence" is, we are just an organism that has developed more and more capabilities to process information based on a need to survive. But getting down to it, we know neurons take inputs and give outputs based on what it perceives is the best response for the given input, and when enough of these are added together we get "intelligence". In my opinion it's still all predictive, its how the networks are trained and gain meaning from the data that isn't always obvious. It's only when you blindly accept any answer as correct that you run into these issues we've seen with ChatGPT.
Thank you for sharing the article, it was an interesting article and helped clarify my understanding of the topic.