Longest minimal length partitions

Beniamin Bogosel; Edouard Oudet

doi:10.4171/IFB/468

Longest minimal length partitions

Beniamin Bogosel
, Edouard Oudet

LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)

Résultats de recherche: Contribution à un journal › Article › Revue par des pairs

Résumé

This article provides numerical evidence that under volume constraint the ball is the set which maximizes the perimeter of the least-perimeter partition into cells with prescribed areas. We introduce a numerical maximization algorithm which performs multiple optimization steps at each iteration to approximate minimal partitions. Using these partitions we compute perturbations of the domain which increase the minimal perimeter. The initialization of the optimal partitioning algorithm uses capacity-constrained Voronoi diagrams. A new algorithm is proposed to identify such diagrams, by computing the gradients of areas and perimeters for the Voronoi cells with respect to the Voronoi points.

langue originale	Anglais
Pages (de - à)	95-135
Nombre de pages	41
journal	Interfaces and Free Boundaries
Volume	24
Numéro de publication	1
Les DOIs	https://doi.org/10.4171/IFB/468
état	Publié - 1 janv. 2021

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10.4171/IFB/468

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title = "Longest minimal length partitions",

abstract = "This article provides numerical evidence that under volume constraint the ball is the set which maximizes the perimeter of the least-perimeter partition into cells with prescribed areas. We introduce a numerical maximization algorithm which performs multiple optimization steps at each iteration to approximate minimal partitions. Using these partitions we compute perturbations of the domain which increase the minimal perimeter. The initialization of the optimal partitioning algorithm uses capacity-constrained Voronoi diagrams. A new algorithm is proposed to identify such diagrams, by computing the gradients of areas and perimeters for the Voronoi cells with respect to the Voronoi points.",

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AB - This article provides numerical evidence that under volume constraint the ball is the set which maximizes the perimeter of the least-perimeter partition into cells with prescribed areas. We introduce a numerical maximization algorithm which performs multiple optimization steps at each iteration to approximate minimal partitions. Using these partitions we compute perturbations of the domain which increase the minimal perimeter. The initialization of the optimal partitioning algorithm uses capacity-constrained Voronoi diagrams. A new algorithm is proposed to identify such diagrams, by computing the gradients of areas and perimeters for the Voronoi cells with respect to the Voronoi points.

KW - Optimal partitions

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Longest minimal length partitions

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