arXiv:1612.06286 Abstract | arXiv Analytics

arXiv:1612.06286 [math.MG]Abstract References Reviews Resources

A Federer-style characterization of sets of finite perimeter on metric spaces

Published 2016-12-19Version 1

In the setting of a metric space equipped with a doubling measure that supports a Poincar\'e inequality, we show that a set $E$ is of finite perimeter if and only if $\mathcal H(\partial^1 I_E)<\infty$, that is, if and only if the codimension one Hausdorff measure of the \emph{$1$-fine boundary} of the set's measure theoretic interior $I_E$ is finite.

Categories: math.MG

Subjects: 30L99, 31E05, 26B30

Keywords: finite perimeter, metric space, federer-style characterization, sets measure theoretic interior, fine boundary

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arXiv:1612.06286 [math.MG]Abstract References Reviews Resources

A Federer-style characterization of sets of finite perimeter on metric spaces

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arXiv:1612.06286 [math.MG]AbstractReferencesReviewsResources

A Federer-style characterization of sets of finite perimeter on metric spaces

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arXiv:1612.06286 [math.MG]Abstract References Reviews Resources