A driving-cycle-aware shape and topology optimization pipeline for IPMSMs, using k-means clustering, NGnet, and splines, achieves up to 10% permanent-magnet reduction with maintained torque and near-reference efficiency, validated by manufacturing and testing two rotor designs.
Topology optimization and param- eter optimization hybridized by mesh smoothing for IPMSM design
2 Pith papers cite this work. Polarity classification is still indexing.
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Overview of the CREATOR collaborative research centre's vision and first-period achievements toward a computational electric machine laboratory.
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Driving-Cycle-Aware Shape and Topology Optimization of an Interior Permanent Magnet Synchronous Machine for a Traction Drive
A driving-cycle-aware shape and topology optimization pipeline for IPMSMs, using k-means clustering, NGnet, and splines, achieves up to 10% permanent-magnet reduction with maintained torque and near-reference efficiency, validated by manufacturing and testing two rotor designs.
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The CREATOR Project: Towards a Computational Electric Machine Laboratory
Overview of the CREATOR collaborative research centre's vision and first-period achievements toward a computational electric machine laboratory.