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Jin, X · 2021 · arXiv 2020.10995

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Cell-induced densification and tether formation in fibrous extracellular matrices with biomimetic physics-informed neural networks

cs.LG · 2026-03-31 · unverdicted · novelty 6.0

Bio-PINNs with a near-to-far curriculum and deformation-uncertainty proxy recover cell-induced densified phases and tether morphologies more reliably than standard adaptive PINN baselines in single-cell and multicellular settings.

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Cell-induced densification and tether formation in fibrous extracellular matrices with biomimetic physics-informed neural networks cs.LG · 2026-03-31 · unverdicted · none · ref 20
Bio-PINNs with a near-to-far curriculum and deformation-uncertainty proxy recover cell-induced densified phases and tether morphologies more reliably than standard adaptive PINN baselines in single-cell and multicellular settings.

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