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An ALE-Consistent Graph Neural Operator-Transformer Framework for Fluid-Structure Interaction

Fluid Dynamics 2026-05-05 v1 Machine Learning

Abstract

We propose an arbitrary Lagrangian-Eulerian (ALE)-consistent machine learning framework for long-term fluid-structure interaction (FSI) prediction on deforming unstructured meshes. Specifically, the fluid dynamics are modeled by a surrogate that combines a graph neural operator (GNO) with a vision Transformer (ViT) for spatiotemporal prediction, while a lightweight long short-term memory (LSTM) network predicts structural kinematics at the interface. The two surrogates are coupled through a standard partitioned procedure. Most importantly, kinematic compatibility at the moving interface is enforced via an ALE-consistent boundary-correction step that updates the fluid-side interface velocity with the predicted structural velocity at each coupling update, thereby improving near-interface accuracy and long-term rollout stability. To mitigate autoregressive error accumulation, a two-stage training strategy is adopted, consisting of single-step supervised pretraining followed by long-term autoregressive fine-tuning. The proposed framework is validated on the benchmark problem of a flexible beam vibration in the wake of a cylinder. Results demonstrate accurate phase-consistent predictions over long rollouts and robust generalization under inlet-profile variations in both interpolation and extrapolation settings. Systematic ablation studies further assess the respective contributions of the ViT module, ALE-consistent boundary correction, and long-term training to predictive accuracy and rollout robustness.

Keywords

Cite

@article{arxiv.2605.00937,
  title  = {An ALE-Consistent Graph Neural Operator-Transformer Framework for Fluid-Structure Interaction},
  author = {Shihang Zhao and Martín Saravia and Haokui Jiang and Zhiyang Xue and Shunxiang Cao},
  journal= {arXiv preprint arXiv:2605.00937},
  year   = {2026}
}

Comments

29 pages, 20 figures

R2 v1 2026-07-01T12:45:43.083Z