Advances in viscous vortex methods - meshless spatial adaption based on radial basis function interpolation

LA Barba, A Leonard, CB Allen

Research output: Contribution to journalArticle (Academic Journal)peer-review

69 Citations (Scopus)

Abstract

Vortex methods have a history as old as finite differences. They have since faced difficulties stemming from the numerical complexity of the Biot-Savart law, the inconvenience of adding viscous effects in a Lagrangian formulation, and the loss of accuracy due to Lagrangian distortion of the computational elements. The first two issues have been successfully addressed, respectively, by the application of the fast multipole method, and by a variety of viscous schemes which will be briefly reviewed in this article. The standard method to deal with the third problem is the use of remeshing schemes consisting of tensor product interpolation with high-order kernels. In this work, a numerical study of the errors due to remeshing has been performed, as well as of the errors implied in the discretization itself using vortex blobs. In addition, an alternative method of controlling Lagrangian distortion is proposed, based on ideas of radial basis function (RBF) interpolation (briefly reviewed here). This alternative is formulated grid-free, and is shown to be more accurate than standard remeshing. In addition to high-accuracy, RBF interpolation allows core size control, either for correcting the core spreading viscous scheme or for providing a variable resolution in the physical domain. This formulation will allow in theory the application of error estimates to produce a truly adaptive spatial refinement technique. Proof-of-concept is provided by calculations of the relaxation of a perturbed monopole to a tripole attractor.
Translated title of the contributionAdvances in viscous vortex methods - meshless spatial adaption based on radial basis function interpolation
Original languageEnglish
Pages (from-to)387 - 421
Number of pages35
JournalInternational Journal for Numerical Methods in Fluids
Volume47 (5)
DOIs
Publication statusPublished - Feb 2005

Bibliographical note

Publisher: John Wiley & Sons Ltd

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