Shattuck, Mark and Wagner, Carl
(2022)
A Further Look at the Bayes Blind Spot.
[Preprint]
Abstract
Abstract. Gyenis and R ́edei have demonstrated that any prior p on a finite algebra, however chosen, severely restricts the set of posteriors accessible from p by Jeffrey conditioning on a nontrivial partition. Their demonstration involves showing that the set of posteriors not accessible from p in this way (which they call the Bayes blind spot of p) is large with respect to three common measures of size, namely, having cardinality c, (normalized) Lebesgue measure 1, and Baire second category with respect to a natural topology. In the present paper, we establish analogous results for probability measures defined on any infinite sigma algebra of subsets of a denumerably infinite set. However, we have needed to employ distinctly dfferent approaches to determine the cardinality, and especially, the topological and measure- theoretic sizes of the Bayes blind spot in the infinite case. Interestingly, all of the results that we establish for a single prior p continue to hold for the intersection of the Bayes blind spots of countably many priors. This leads us to conjecture that Bayesian learning itself might be just as culpable as the limitations imposed by priors in enabling the existence of large Bayes blind spots.
Monthly Views for the past 3 years
Monthly Downloads for the past 3 years
Plum Analytics
Actions (login required)
|
View Item |