I already said that I think that thinking in terms of infinitary convex combinations, as you’re doing, is the wrong way to go about it; but it took me a bit to put together why that’s definitely the wrong way.
Specifically, it assumes probability! Fishburn, in the paper you link, assumes probability, which is why he’s able to talk about why infinitary convex combinations are or are not allowed (I mean, that and the fact that he’s not necessarily arbitrary actions).
Savage doesn’t assume probability!
Savage doesn’t assume probability or utility, but their construction is a mathematical consequence of the axioms. So although they come later in the exposition, they mathematically exist as soon as the axioms have been stated.
So if you want to disallow certain actions… how do you specify them?
I am still thinking about that, and may be some time.
As a general outline of the situation, you read P1-7 ⇒ bounded utility as modus ponens: you accept the axioms and therefore accept the conclusion. I read it as modus tollens: the conclusion seems wrong, so I believe there is a flaw in the axioms. In the same way, the axioms of Euclidean geometry seemed very plausible as a description of the physical space we find ourselves in, but conflicts emerged with phenomena of electromagnetism and gravity, and eventually they were superseded as descriptions of physical space by the geometry of differential manifolds.
It isn’t possible to answer the question “which of P1-7 would I reject?” What is needed to block the proof of bounded utility is a new set of axioms, which will no doubt imply large parts of P1-7, but might not imply the whole of any one of them. If and when such a set of axioms can be found, P1-7 can be re-examined in their light.
Savage doesn’t assume probability or utility, but their construction is a mathematical consequence of the axioms. So although they come later in the exposition, they mathematically exist as soon as the axioms have been stated.
I am still thinking about that, and may be some time.
As a general outline of the situation, you read P1-7 ⇒ bounded utility as modus ponens: you accept the axioms and therefore accept the conclusion. I read it as modus tollens: the conclusion seems wrong, so I believe there is a flaw in the axioms. In the same way, the axioms of Euclidean geometry seemed very plausible as a description of the physical space we find ourselves in, but conflicts emerged with phenomena of electromagnetism and gravity, and eventually they were superseded as descriptions of physical space by the geometry of differential manifolds.
It isn’t possible to answer the question “which of P1-7 would I reject?” What is needed to block the proof of bounded utility is a new set of axioms, which will no doubt imply large parts of P1-7, but might not imply the whole of any one of them. If and when such a set of axioms can be found, P1-7 can be re-examined in their light.