Knowledge distillation from a hybrid CNN-Transformer teacher to a depth-wise separable CNN student, combined with realistic motion and environmental augmentation, produces a 15x smaller EDA denoiser that cuts underwater reconstruction error from 2.809 to 0.215 MAE and raises downstream CNS-OT AUROC.
Twenty-four-hour patterns in electrodermal activity recordings of patients with and without epileptic seizures
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Memory-Efficient EDA Denoising via Knowledge Distillation for Wearable IoT Under Severe Motion Artifacts and Underwater Conditions
Knowledge distillation from a hybrid CNN-Transformer teacher to a depth-wise separable CNN student, combined with realistic motion and environmental augmentation, produces a 15x smaller EDA denoiser that cuts underwater reconstruction error from 2.809 to 0.215 MAE and raises downstream CNS-OT AUROC.