Uniformization (set theory)

In set theory, the axiom of uniformization, a weak form of the axiom of choice, states that if R is a subset of X\times Y, where X and Y are Polish spaces, then there is a subset f of R that is a partial function from X to Y, and whose domain (in the sense of the set of all x such that f(x) exists) equals

\{x\in X|\exists y\in Y (x,y)\in R\}\,

Such a function is called a uniformizing function for R, or a uniformization of R.

Uniformization of relation R (light blue) by function f (red).

To see the relationship with the axiom of choice, observe that R can be thought of as associating, to each element of X, a subset of Y. A uniformization of R then picks exactly one element from each such subset, whenever the subset is nonempty. Thus, allowing arbitrary sets X and Y (rather than just Polish spaces) would make the axiom of uniformization equivalent to AC.

A pointclass \boldsymbol{\Gamma} is said to have the uniformization property if every relation R in \boldsymbol{\Gamma} can be uniformized by a partial function in \boldsymbol{\Gamma}. The uniformization property is implied by the scale property, at least for adequate pointclasses of a certain form.

It follows from ZFC alone that \boldsymbol{\Pi}^1_1 and \boldsymbol{\Sigma}^1_2 have the uniformization property. It follows from the existence of sufficient large cardinals that

References

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