Difference between revisions of "User:Boris Tsirelson/sandbox1"
From Encyclopedia of Mathematics
| Line 8: | Line 8: | ||
: | : | ||
: (4.12) ''Theorem.'' If $S$ is a Borel subset of a complete separable metric space $M$, and $\mathcal S$ is the collection of Borel subsets of $S$, then $(S,\mathcal S)$ is nice. | : (4.12) ''Theorem.'' If $S$ is a Borel subset of a complete separable metric space $M$, and $\mathcal S$ is the collection of Borel subsets of $S$, then $(S,\mathcal S)$ is nice. | ||
| − | : | + | : |
| − | + | It is not specified in the definition, whether $\phi(S)$ must be a Borel set, or not. The proof of the theorem provides just a Borel 1-1 map $\phi:S\to\R$ without addressing measurability of the function $\phi^{-1}$ and the set $\phi(S)$. Later, in the proof of Theorem (1.6) of {{Cite|Dur|Sect. 4.1(c)}}, measurability of $\phi^{-1}$ and $\phi(S)$ is used (see the last line of the proof). | |
| − | |||
| − | |||
====References==== | ====References==== | ||
Revision as of 07:57, 7 April 2012
Criticism
A quote from [Dur, Sect. 1.4(c), p. 33]:
- $(S,\mathcal S)$ is said to be nice if there is a 1-1 map $\phi$ from $S$ into $\R$ so that $\phi$ and $\phi^{-1}$ are both measurable.
- Such spaces are often called standard Borel spaces, but we already have too many things named after Borel. The next result shows that most spaces arising in applications are nice.
- (4.12) Theorem. If $S$ is a Borel subset of a complete separable metric space $M$, and $\mathcal S$ is the collection of Borel subsets of $S$, then $(S,\mathcal S)$ is nice.
It is not specified in the definition, whether $\phi(S)$ must be a Borel set, or not. The proof of the theorem provides just a Borel 1-1 map $\phi:S\to\R$ without addressing measurability of the function $\phi^{-1}$ and the set $\phi(S)$. Later, in the proof of Theorem (1.6) of [Dur, Sect. 4.1(c)], measurability of $\phi^{-1}$ and $\phi(S)$ is used (see the last line of the proof).
References
| [I] | Kiyosi Itô, "Introduction to probability theory", Cambridge (1984). MR0777504 Zbl 0545.60001 |
How to Cite This Entry:
Boris Tsirelson/sandbox1. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Boris_Tsirelson/sandbox1&oldid=24259
Boris Tsirelson/sandbox1. Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Boris_Tsirelson/sandbox1&oldid=24259