Stuart Armstrong has proved some theorems showing that it’s really really hard to get to the Pareto frontier unless you’re adding utility functions in some sense, with the big issue being the choice of scaling factor.
He knows. Also, why do you say “really really hard” when the theorem says “impossible”?
It occurred to me (and I suggested to Armstrong) that I wouldn’t want to trade off whole stars turned into paperclips against individual small sentients on an even basis when dividing the gains from trade, even if I came out ahead on net against the prior state of the universe before the trade.
I’m confused. How is this incompatible with maximizing a sum of utility functions with the paperclip maximizer getting a scaling factor of tiny or 0?
He knows. Also, why do you say “really really hard” when the theorem says “impossible”?
I’m confused. How is this incompatible with maximizing a sum of utility functions with the paperclip maximizer getting a scaling factor of tiny or 0?