The adaptive multi-fidelity FSI optimization framework achieves an 80% reduction in computational cost on a flexible panel benchmark while maintaining accuracy within 2.3% of full high-fidelity optimization.
author Zeng, X
2 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 2representative citing papers
A partitioned fluid-structure interaction framework using level-set and embedded-boundary methods is applied to a thin steel chamber under 250 g TNT explosion, showing 30% volume expansion and that decoupling overestimates plastic strain by 43.75%.
citing papers explorer
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Adaptive Multi-Fidelity Structural Optimization under Fluid-Structure Interaction
The adaptive multi-fidelity FSI optimization framework achieves an 80% reduction in computational cost on a flexible panel benchmark while maintaining accuracy within 2.3% of full high-fidelity optimization.
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Fluid-structure coupled simulation framework for lightweight explosion containment structures under large deformations
A partitioned fluid-structure interaction framework using level-set and embedded-boundary methods is applied to a thin steel chamber under 250 g TNT explosion, showing 30% volume expansion and that decoupling overestimates plastic strain by 43.75%.