A numerical method for solving partial differential equations on highly irregular evolving grids

Jean Braun; Malcolm Sambridge

doi:10.1038/376655a0

A numerical method for solving partial differential equations on highly irregular evolving grids

Jean Braun, Malcolm Sambridge

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

303 Citations (Scopus)

Abstract

An efficient numerical method is described for solving partial differential equations in problems where traditional eulerian and lagrangian techniques fail. The approach makes use of the geometrical concept of 'natural neighbours', the properties of which make it suitable for solving problems involving large deformation and solid-fluid interactions on a deforming mesh, without the need for regridding. The approach can also be applied to high-order partial differential equations (such as the Navier-Stokes equation), even in cases where the evolving mesh is highly irregular.

Original language	English
Pages (from-to)	655-660
Number of pages	6
Journal	Nature
Volume	376
Issue number	6542
DOIs	https://doi.org/10.1038/376655a0
Publication status	Published - 24 Aug 1995

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title = "A numerical method for solving partial differential equations on highly irregular evolving grids",

abstract = "An efficient numerical method is described for solving partial differential equations in problems where traditional eulerian and lagrangian techniques fail. The approach makes use of the geometrical concept of 'natural neighbours', the properties of which make it suitable for solving problems involving large deformation and solid-fluid interactions on a deforming mesh, without the need for regridding. The approach can also be applied to high-order partial differential equations (such as the Navier-Stokes equation), even in cases where the evolving mesh is highly irregular.",

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AB - An efficient numerical method is described for solving partial differential equations in problems where traditional eulerian and lagrangian techniques fail. The approach makes use of the geometrical concept of 'natural neighbours', the properties of which make it suitable for solving problems involving large deformation and solid-fluid interactions on a deforming mesh, without the need for regridding. The approach can also be applied to high-order partial differential equations (such as the Navier-Stokes equation), even in cases where the evolving mesh is highly irregular.

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A numerical method for solving partial differential equations on highly irregular evolving grids

Abstract

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