Geometric constraints for shape and topology optimization in architectural design

Charles Dapogny; Alexis Faure; Georgios Michailidis; Grégoire Allaire; Agnes Couvelas; Rafael Estevez

doi:10.1007/s00466-017-1383-6

Geometric constraints for shape and topology optimization in architectural design

Charles Dapogny
, Alexis Faure
, Georgios Michailidis
, Grégoire Allaire
, Agnes Couvelas
, Rafael Estevez

LTHE (UMR 5564 CNRS/IRD/Université de Grenoble)
UMR 5614 CNRS/ENSEEG
Université Paris-Saclay
SHAPE IKE

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

Résumé

This work proposes a shape and topology optimization framework oriented towards conceptual architectural design. A particular emphasis is put on the possibility for the user to interfere on the optimization process by supplying information about his personal taste. More precisely, we formulate three novel constraints on the geometry of shapes; while the first two are mainly related to aesthetics, the third one may also be used to handle several fabrication issues that are of special interest in the device of civil structures. The common mathematical ingredient to all three models is the signed distance function to a domain, and its sensitivity analysis with respect to perturbations of this domain; in the present work, this material is extended to the case where the ambient space is equipped with an anisotropic metric tensor. Numerical examples are discussed in two and three space dimensions.

langue originale	Anglais
Pages (de - à)	933-965
Nombre de pages	33
journal	Computational Mechanics
Volume	59
Numéro de publication	6
Les DOIs	https://doi.org/10.1007/s00466-017-1383-6
état	Publié - 1 juin 2017
Modification externe	Oui

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10.1007/s00466-017-1383-6

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title = "Geometric constraints for shape and topology optimization in architectural design",

abstract = "This work proposes a shape and topology optimization framework oriented towards conceptual architectural design. A particular emphasis is put on the possibility for the user to interfere on the optimization process by supplying information about his personal taste. More precisely, we formulate three novel constraints on the geometry of shapes; while the first two are mainly related to aesthetics, the third one may also be used to handle several fabrication issues that are of special interest in the device of civil structures. The common mathematical ingredient to all three models is the signed distance function to a domain, and its sensitivity analysis with respect to perturbations of this domain; in the present work, this material is extended to the case where the ambient space is equipped with an anisotropic metric tensor. Numerical examples are discussed in two and three space dimensions.",

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AU - Dapogny, Charles

AU - Faure, Alexis

AU - Michailidis, Georgios

AU - Allaire, Grégoire

AU - Couvelas, Agnes

AU - Estevez, Rafael

PY - 2017/6/1

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N2 - This work proposes a shape and topology optimization framework oriented towards conceptual architectural design. A particular emphasis is put on the possibility for the user to interfere on the optimization process by supplying information about his personal taste. More precisely, we formulate three novel constraints on the geometry of shapes; while the first two are mainly related to aesthetics, the third one may also be used to handle several fabrication issues that are of special interest in the device of civil structures. The common mathematical ingredient to all three models is the signed distance function to a domain, and its sensitivity analysis with respect to perturbations of this domain; in the present work, this material is extended to the case where the ambient space is equipped with an anisotropic metric tensor. Numerical examples are discussed in two and three space dimensions.

AB - This work proposes a shape and topology optimization framework oriented towards conceptual architectural design. A particular emphasis is put on the possibility for the user to interfere on the optimization process by supplying information about his personal taste. More precisely, we formulate three novel constraints on the geometry of shapes; while the first two are mainly related to aesthetics, the third one may also be used to handle several fabrication issues that are of special interest in the device of civil structures. The common mathematical ingredient to all three models is the signed distance function to a domain, and its sensitivity analysis with respect to perturbations of this domain; in the present work, this material is extended to the case where the ambient space is equipped with an anisotropic metric tensor. Numerical examples are discussed in two and three space dimensions.

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KW - Optimum shape

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ER -

Geometric constraints for shape and topology optimization in architectural design

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