Jankov–von Neumann uniformization theorem

In descriptive set theory the Jankov–von Neumann uniformization theorem is a result saying that every measurable relation on a pair of standard Borel spaces (with respect to the sigma algebra of analytic sets) admits a measurable section. It is named after V. A. Jankov and John von Neumann. While the axiom of choice guarantees that every relation has a section, this is a stronger conclusion in that it asserts that the section is measurable, and thus "definable" in some sense without using the axiom of choice.

Statement

Let ${\displaystyle X,Y}$  be standard Borel spaces and ${\displaystyle R\subset X\times Y}$  a subset that is measurable with respect to the analytic sets. Then there exists a measurable function ${\displaystyle f:X\to Y}$  such that, for all ${\displaystyle x\in X}$ , ${\displaystyle \exists y,R(x,y)}$  if and only if ${\displaystyle R(x,f(x))}$ .

An application of the theorem is that, given any measurable function ${\displaystyle g:Y\to X}$ , there exists a universally measurable function ${\displaystyle f:g(Y)\subset X\to Y}$  such that ${\displaystyle g(f(x))=x}$  for all ${\displaystyle x\in g(Y)}$ .

References

• Kechris, Alexander (1995), Classical descriptive set theory, Springer-Verlag.
• von Neumann, John (1949), "On rings of operators, Reduction theory", Ann. Math., 50: 448–451.