This yields a one-dimensional dataset{(g j, q j)}N j=1 whereg j =g k(xj)andq j ≈h ′ k(gj)

points with∥∇g k(xj)∥2 below the 5th percentile are discarded (ill-conditioned denominators), outliers inh ′ k beyond3×IQRare removed

1 Pith paper cite this work. Polarity classification is still indexing.

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Deep-Koopman-KANDy: Dictionary Discovery for Deep-Koopman Operators with Kolmogorov-Arnold Networks for Dynamics

math.DS · 2026-05-07 · conditional · novelty 7.0

Deep-Koopman-KANDy recovers symbolic Koopman dictionaries post-training by replacing the encoder and decoder with KANs and applying a level-set construction with chain-rule gradients, achieving high recall on Lorenz and expected behavior on other maps.

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Deep-Koopman-KANDy: Dictionary Discovery for Deep-Koopman Operators with Kolmogorov-Arnold Networks for Dynamics math.DS · 2026-05-07 · conditional · none · ref 71
Deep-Koopman-KANDy recovers symbolic Koopman dictionaries post-training by replacing the encoder and decoder with KANs and applying a level-set construction with chain-rule gradients, achieving high recall on Lorenz and expected behavior on other maps.

This yields a one-dimensional dataset{(g j, q j)}N j=1 whereg j =g k(xj)andq j ≈h ′ k(gj)

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