I don’t have an adequate answer for this, since these models are incomplete. But the way I see it is that these people had a certain way of mathematically reasoning about cognition (Hinton, Rumelhart, McClelland, Smolensky), and that reasoning created most of the breakthroughs we see today in AI (backprop, multi-layed models, etc.) It seems trying to utilize that model of cognition could give rise to new insights about the questions you’re asking, attack the problem from a different angle, or help create a grounded paradigm for alignment research to build on.
I don’t have an adequate answer for this, since these models are incomplete. But the way I see it is that these people had a certain way of mathematically reasoning about cognition (Hinton, Rumelhart, McClelland, Smolensky), and that reasoning created most of the breakthroughs we see today in AI (backprop, multi-layed models, etc.) It seems trying to utilize that model of cognition could give rise to new insights about the questions you’re asking, attack the problem from a different angle, or help create a grounded paradigm for alignment research to build on.