Abstract
It was shown in [19] that the maximal surface area of a convex set in Rn with respect to a rotation invariant log-concave probability measure γ is of order nVar|X|4E|X|, where X is a random vector in Rn distributed with respect to γ. In the present paper we discuss surface area of convex polytopes PK with K facets. We find tight bounds on the maximal surface area of PK in terms of K. We show that γ(∂PK)≲nE|X|⋅logK⋅logn for all K. This bound is better than the general bound for all K∈[2,ecVar|X|]. Moreover, for all K in that range the bound is exact up to a factor of logn: for each K∈[2,ecVar|X|] there exists a polytope PK with at most K facets such that γ(∂PK)≳nE|X|logK.
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