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arxiv: 1505.07529 · v4 · pith:LAIRPLO6new · submitted 2015-05-28 · 🧮 math.NA · cs.NA· physics.flu-dyn

Gaussian-Like Immersed Boundary Kernels with Three Continuous Derivatives and Improved Translational Invariance

classification 🧮 math.NA cs.NAphysics.flu-dyn
keywords immersedkernelsinvariancetranslationalboundarydeltadescribedeulerian
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The immersed boundary (IB) method is a general mathematical framework for studying problems involving fluid-structure interactions in which an elastic structure is immersed in a viscous incompressible fluid. In the IB formulation, the fluid described by Eulerian variables is coupled with the immersed structure described by Lagrangian variables via the use of the Dirac delta function. From a numerical standpoint, the Lagrangian force spreading and the Eulerian velocity interpolation are carried out by a regularized, compactly supported discrete delta function, which is assumed to be a tensor product of a single-variable immersed-boundary kernel. IB kernels are derived from a set of postulates designed to achieve approximate grid translational invariance, interpolation accuracy and computational efficiency. In this note, we present new 5-point and 6-point immersed-boundary kernels that are $\mathscr{C}^3$ and yield a substantially improved translational invariance compared to other common IB kernels.

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Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Comparative analysis of resistive immersed surface and immersed boundary methods for aortic valve simulation

    physics.flu-dyn 2026-07 unverdicted novelty 3.0

    RIS method reproduces mean transvalvular pressure gradients within 15% of IB simulations for aortic valves at 60% lower computational cost.