Achieving minimum lengthscaleintopologyoptimizationusingnodaldesignvariablesand projectionfunctions

Guest, J · 2004 · DOI 10.1002/nme.1064

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A Dual Physics-Informed Kolmogorov-Arnold Neural Network Framework for Continuum Topology Optimization

cs.CE · 2026-05-19 · unverdicted · novelty 6.0

Dual HRKAN framework (DPIKAN-TO) for topology optimization with one network predicting displacements and another handling sensitivity-based design updates.

Large Language Models as Optimization Controllers: Adaptive Continuation for SIMP Topology Optimization

cs.CE · 2026-03-26 · unverdicted · novelty 6.0

An LLM acting as real-time controller for SIMP topology optimization parameters outperforms fixed schedules and heuristics, delivering 5.7-18.1% lower compliance on 2D and 3D benchmarks.

Sequential topology optimization: SIMP initialization for level-set boundary refinement

cs.CE · 2026-05-06 · conditional · novelty 4.0

A sequential topology optimization approach uses SIMP results to initialize level-set refinement via signed distance function transfer on 3D meshes, achieving comparable compliance with up to 4.6x speedup on benchmarks.

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A Dual Physics-Informed Kolmogorov-Arnold Neural Network Framework for Continuum Topology Optimization cs.CE · 2026-05-19 · unverdicted · none · ref 14
Dual HRKAN framework (DPIKAN-TO) for topology optimization with one network predicting displacements and another handling sensitivity-based design updates.
Large Language Models as Optimization Controllers: Adaptive Continuation for SIMP Topology Optimization cs.CE · 2026-03-26 · unverdicted · none · ref 30
An LLM acting as real-time controller for SIMP topology optimization parameters outperforms fixed schedules and heuristics, delivering 5.7-18.1% lower compliance on 2D and 3D benchmarks.
Sequential topology optimization: SIMP initialization for level-set boundary refinement cs.CE · 2026-05-06 · conditional · none · ref 27
A sequential topology optimization approach uses SIMP results to initialize level-set refinement via signed distance function transfer on 3D meshes, achieving comparable compliance with up to 4.6x speedup on benchmarks.

Achieving minimum lengthscaleintopologyoptimizationusingnodaldesignvariablesand projectionfunctions

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