Kolmogorov-arnold convolutions: Design principles and empirical studies

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• KAConvNet: Kolmogorov-Arnold Convolutional Networks for Vision Recognition cs.CV · 2026-04-25 · unverdicted · none · ref 6

  KAConvNet introduces a Kolmogorov-Arnold Convolutional Layer to build networks competitive with ViTs and CNNs while offering stronger theoretical interpretability.

• KAN-MLP-Mixer: A comprehensive investigation of the usage of Kolmogorov-Arnold Networks (KANs) for improving IMU-based Human Activity Recognition cs.AI · 2026-05-18 · conditional · none · ref 19

  A hybrid KAN-MLP model for IMU-based human activity recognition achieves 5.33% relative macro F1 improvement over pure MLPs on eight datasets by placing KANs at input embedding and classification stages.

• Light-ResKAN: A Parameter-Sharing Lightweight KAN with Gram Polynomials for Efficient SAR Image Recognition cs.CV · 2026-04-02 · unverdicted · none · ref 51

  Light-ResKAN reaches 99.09% accuracy on MSTAR SAR images with 82.9 times fewer FLOPs and 163.78 times fewer parameters than VGG16 by combining KAN convolutions, Gram polynomials, and channel-wise parameter sharing.

• GroupKAN: Efficient Kolmogorov-Arnold Networks via Grouped Spline Modeling cs.CV · 2025-11-07 · conditional · none · ref 24

  GroupKAN reduces KAN parameter scaling via intra-group spline mappings, delivering 79.80% average IoU (+1.11% over U-KAN) at 47.6% of the parameters on BUSI, GlaS, and CVC datasets.

• Interpretable Clinical Classification with Kolmogorov-Arnold Networks cs.LG · 2025-09-20 · conditional · none · ref 24

  Logistic KAN and KAAM achieve competitive or superior accuracy on clinical datasets compared to linear, tree, and neural baselines while providing built-in interpretability via symbolic forms and feature-wise decompositions.