Deviation inequalities for random polytopes in arbitrary convex bodies

Victor Emmanuel Brunel

doi:10.3150/19-BEJ1164

Deviation inequalities for random polytopes in arbitrary convex bodies

Victor Emmanuel Brunel

ENSAE

Research output: Contribution to journal › Article › peer-review

Abstract

We prove an exponential deviation inequality for the convex hull of a finite sample of i.i.d. random points with a density supported on an arbitrary convex body in Rd, d ≥ 2. When the density is uniform, our result yields rate optimal upper bounds for all the moments of the missing volume of the convex hull, uniformly over all convex bodies of Rd:We make no restrictions on their volume, location in the space or smoothness of their boundary. For general densities, the only restriction we make is that the density is bounded from above, even though we believe this restriction is not necessary. However, the density can have any decay to zero near the boundary of its support. After extending an identity due to Efron, we also prove upper bounds for the moments of the number of vertices of the random polytope. Surprisingly, these bounds do not depend on the underlying density and we prove that the growth rates that we obtain are tight in a certain sense. Our results are non asymptotic and hold uniformly over all convex bodies.

Original language	English
Pages (from-to)	2488-2502
Number of pages	15
Journal	Bernoulli
Volume	26
Issue number	4
DOIs	https://doi.org/10.3150/19-BEJ1164
Publication status	Published - 2 Nov 2020
Externally published	Yes

Keywords

Convex body
Convex hull
Covering number
Density support estimation
Deviation inequality
Random polytope

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10.3150/19-BEJ1164

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title = "Deviation inequalities for random polytopes in arbitrary convex bodies",

abstract = "We prove an exponential deviation inequality for the convex hull of a finite sample of i.i.d. random points with a density supported on an arbitrary convex body in Rd, d ≥ 2. When the density is uniform, our result yields rate optimal upper bounds for all the moments of the missing volume of the convex hull, uniformly over all convex bodies of Rd:We make no restrictions on their volume, location in the space or smoothness of their boundary. For general densities, the only restriction we make is that the density is bounded from above, even though we believe this restriction is not necessary. However, the density can have any decay to zero near the boundary of its support. After extending an identity due to Efron, we also prove upper bounds for the moments of the number of vertices of the random polytope. Surprisingly, these bounds do not depend on the underlying density and we prove that the growth rates that we obtain are tight in a certain sense. Our results are non asymptotic and hold uniformly over all convex bodies.",

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AU - Brunel, Victor Emmanuel

PY - 2020/11/2

Y1 - 2020/11/2

N2 - We prove an exponential deviation inequality for the convex hull of a finite sample of i.i.d. random points with a density supported on an arbitrary convex body in Rd, d ≥ 2. When the density is uniform, our result yields rate optimal upper bounds for all the moments of the missing volume of the convex hull, uniformly over all convex bodies of Rd:We make no restrictions on their volume, location in the space or smoothness of their boundary. For general densities, the only restriction we make is that the density is bounded from above, even though we believe this restriction is not necessary. However, the density can have any decay to zero near the boundary of its support. After extending an identity due to Efron, we also prove upper bounds for the moments of the number of vertices of the random polytope. Surprisingly, these bounds do not depend on the underlying density and we prove that the growth rates that we obtain are tight in a certain sense. Our results are non asymptotic and hold uniformly over all convex bodies.

AB - We prove an exponential deviation inequality for the convex hull of a finite sample of i.i.d. random points with a density supported on an arbitrary convex body in Rd, d ≥ 2. When the density is uniform, our result yields rate optimal upper bounds for all the moments of the missing volume of the convex hull, uniformly over all convex bodies of Rd:We make no restrictions on their volume, location in the space or smoothness of their boundary. For general densities, the only restriction we make is that the density is bounded from above, even though we believe this restriction is not necessary. However, the density can have any decay to zero near the boundary of its support. After extending an identity due to Efron, we also prove upper bounds for the moments of the number of vertices of the random polytope. Surprisingly, these bounds do not depend on the underlying density and we prove that the growth rates that we obtain are tight in a certain sense. Our results are non asymptotic and hold uniformly over all convex bodies.

KW - Convex body

KW - Convex hull

KW - Covering number

KW - Density support estimation

KW - Deviation inequality

KW - Random polytope

U2 - 10.3150/19-BEJ1164

DO - 10.3150/19-BEJ1164

M3 - Article

AN - SCOPUS:85091233993

SN - 1350-7265

VL - 26

SP - 2488

EP - 2502

JO - Bernoulli

JF - Bernoulli

IS - 4

ER -

Deviation inequalities for random polytopes in arbitrary convex bodies

Abstract

Keywords

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