Review details multi-fidelity neural networks for composite mechanics modeling

By PulseAugur Editorial · Summary by gemini-2.5-flash-lite from 2 sources

This paper reviews multi-fidelity surrogate modeling techniques for predicting the complex properties of composite materials. It covers methods ranging from Gaussian-process-based approaches like co-Kriging to multi-fidelity neural networks. The review examines how these techniques combine less expensive data with limited high-accuracy data to achieve reliable predictions, and discusses their applications in engineering problems such as design exploration and optimization. AI

Summary written by gemini-2.5-flash-lite from 2 sources. How we write summaries →

IMPACT Provides a structured overview of multi-fidelity modeling techniques relevant for complex material simulations.

RANK_REASON This is a review paper published on arXiv discussing modeling techniques.

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COVERAGE [2]

arXiv cs.LG TIER_1 · Haizhou Wen, Elham Kiyani, Gang Li, Srikanth Pilla, George Em Karniadakis, Zhen Li · 2026-05-05 04:00

Multi-fidelity surrogates for mechanics of composites: from co-kriging to multi-fidelity neural networks

arXiv:2605.02871v1 Announce Type: cross Abstract: Composite materials exhibit strongly hierarchical and anisotropic properties governed by coupled mechanisms spanning constituents, plies, laminates, structures, and manufacturing history. This intrinsic complexity makes predictive…
arXiv cs.LG TIER_1 · Zhen Li · 2026-05-04 17:45

Multi-fidelity surrogates for mechanics of composites: from co-kriging to multi-fidelity neural networks

Composite materials exhibit strongly hierarchical and anisotropic properties governed by coupled mechanisms spanning constituents, plies, laminates, structures, and manufacturing history. This intrinsic complexity makes predictive modeling of composites expensive, because repeate…

COVERAGE [2]

Multi-fidelity surrogates for mechanics of composites: from co-kriging to multi-fidelity neural networks

Multi-fidelity surrogates for mechanics of composites: from co-kriging to multi-fidelity neural networks

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