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Meshless projection model-order reduction via reference spaces for smoothed-particle hydrodynamics

Published 10 Jul 2025 in cs.CE, cs.NA, math.NA, and physics.flu-dyn | (2507.07830v1)

Abstract: This work proposes a model-order reduction framework for the meshless weakly compressible smoothed particle hydrodynamics (SPH) method. The proposed framework introduces the concept of modal reference spaces to overcome the challenges of discovering low-dimensional subspaces from unstructured, dynamic, and mixing numerical topology that is often seen in SPH simulations. The proposed modal reference spaces enable a low-dimensional representation of the SPH field equations while maintaining their inherent meshless qualities. Modal reference spaces are constructed by projecting SPH snapshot data onto a reference space where low-dimensionality of field quantities can be discovered via traditional modal decomposition techniques (e.g., the proper orthogonal decomposition (POD)). Modal quantities are mapped back to the meshless SPH space via scattered data interpolation during the online predictive stage. The proposed model-order reduction framework is cast into the \emph{meshless} Galerkin POD (GPOD) and the Adjoint Petrov--Galerkin (APG) projection model-order reduction (PMOR) formulation. The PMORs are tested on three numerical experiments: 1) the Taylor--Green vortex; 2) lid-driven cavity; and 3) flow past an open cavity. Results show good agreement in reconstructed and predictive velocity fields, which showcase the ability of the proposed framework to evolve the unstructured, dynamic, and mixing SPH field equations in a low-dimensional subspace. Results also show that the pressure field is sensitive to the projection error due to the stiff weakly-compressible assumption made in the current SPH framework, but can be alleviated through nonlinear approximations, such as the APG approach. Ultimately, the presented meshless model-order reduction framework marks a step toward enabling drastic cost savings of SPH simulations.

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