Agree with the first section, though I would like to register my sentiment that although “good at selecting but missing logical facts” is a better model, it’s still not one I’d want an AI to use when inferring my values.
I’m not sure what you’re saying in the “turning off the stars example”. If the probability for the user to autonomously decide to turn off the stars is much lower than the quantilization fraction, then the probability that quantilization will decide to turn off the stars is low. And, the quantilization fraction is automatically selected like this.
I think my point is if “turn off the stars” is not a primitive action, but is a set of states of the world that the AI would overwhelming like to go to, then the actual primitive actions will get evaluated based on how well they end up going to that goal state. And since the AI is better at evaluating than us, we’re probably going there.
Another way of looking at this claim is that I’m telling a story about why the safety bound on quantilizers gets worse when quantilization is iterated. Iterated quantilization has much worse bounds than quantilizing over the iterated game, which makes sense if we think of games where the AI evaluates many actions better than the human.
I think you misunderstood how the iterated quantilization works. It does not work by the AI setting a long-term goal and then charting a path towards that goal s.t. it doesn’t deviate too much from the baseline over every short interval. Instead, every short-term quantilization is optimizing for the user’s evaluation in the end of this short-term interval.
Ah. I indeed misunderstood, thanks :) I’d read “short-term quantilization” as quantilizing over short-term policies evaluated according to their expected utility. My story doesn’t make sense if the AI is only trying to push up the reported value estimates (though that puts a lot of weight on these estimates).
Agree with the first section, though I would like to register my sentiment that although “good at selecting but missing logical facts” is a better model, it’s still not one I’d want an AI to use when inferring my values.
I think my point is if “turn off the stars” is not a primitive action, but is a set of states of the world that the AI would overwhelming like to go to, then the actual primitive actions will get evaluated based on how well they end up going to that goal state. And since the AI is better at evaluating than us, we’re probably going there.
Another way of looking at this claim is that I’m telling a story about why the safety bound on quantilizers gets worse when quantilization is iterated. Iterated quantilization has much worse bounds than quantilizing over the iterated game, which makes sense if we think of games where the AI evaluates many actions better than the human.
I think you misunderstood how the iterated quantilization works. It does not work by the AI setting a long-term goal and then charting a path towards that goal s.t. it doesn’t deviate too much from the baseline over every short interval. Instead, every short-term quantilization is optimizing for the user’s evaluation in the end of this short-term interval.
Ah. I indeed misunderstood, thanks :) I’d read “short-term quantilization” as quantilizing over short-term policies evaluated according to their expected utility. My story doesn’t make sense if the AI is only trying to push up the reported value estimates (though that puts a lot of weight on these estimates).