Multi-level hp-adaptivity: high-order mesh adaptivity without the difficulties of constrain- ing hanging nodes.Computational Mechanics, 55(3):499–517, 2015

Nils Zander, Tino Bog, Stefan Kollmannsberger, Dominik Schillinger, Ernst Rank · 2015

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Marking strategies for adaptive mesh refinement: An efficiency-focused benchmark study for steady solid and fluid mechanics problems

cs.CE · 2026-04-30 · unverdicted · novelty 5.0

Benchmark study finds quantile and z-score marking strategies most robust for adaptive mesh refinement in steady mechanics problems, with Dörfler effective at large parameters and Isolation Forest competitive only under generous settings.

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Marking strategies for adaptive mesh refinement: An efficiency-focused benchmark study for steady solid and fluid mechanics problems cs.CE · 2026-04-30 · unverdicted · none · ref 18
Benchmark study finds quantile and z-score marking strategies most robust for adaptive mesh refinement in steady mechanics problems, with Dörfler effective at large parameters and Isolation Forest competitive only under generous settings.

Multi-level hp-adaptivity: high-order mesh adaptivity without the difficulties of constrain- ing hanging nodes.Computational Mechanics, 55(3):499–517, 2015

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