Lebesgue-Stieljes Measures: Difference between revisions
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Given <math> F : R \rightarrow R </math> nondecreasing and right contiuous, define an outer measure by | Given <math> F : R \rightarrow R </math> nondecreasing and right contiuous, define an outer measure by | ||
:<math>\mu_F(A) = \inf\left\{\sum_i \mu_F(\left | :<math>\mu_F^{*}(A) = \inf\left\{\sum_i \mu_F^{*}(\left(a, b\right]) \ : \ A\subset \bigcup_i \left(a, b\right] \right\}</math> | ||
where <math> \mu_F^{*}(\left(a, b\right]) = F(b) - F(a) </math> and the infimum taken over all coverings of A by countably many semiopen intervals. By Carathéodory's Theorem, we know that <math>\mu_F := \left.\mu_F^{*}\right|_{M_{\mu_F^{*}}}</math> is a measure. This measure is sometimes called the Lebesgue–Stieltjes measure associated with F.<ref name="Folland">Folland, Gerald B. (1999). ''Real Analysis: Modern Techniques and Their Applications'', John Wiley and Sons, ISBN 0471317160, Second edition.</ref> | |||
==References== |
Latest revision as of 06:35, 19 December 2020
Given nondecreasing and right contiuous, define an outer measure by
where and the infimum taken over all coverings of A by countably many semiopen intervals. By Carathéodory's Theorem, we know that is a measure. This measure is sometimes called the Lebesgue–Stieltjes measure associated with F.[1]
References
- ↑ Folland, Gerald B. (1999). Real Analysis: Modern Techniques and Their Applications, John Wiley and Sons, ISBN 0471317160, Second edition.