B-NRDEs recast NRDE log-ODE steps via Grossman-Larson and Munthe-Kaas-Wright rooted trees to enable intrinsic Itô and manifold dynamics with a branched signature-kernel objective.
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A unified inference-time augmentation framework using 13 methods with Bayesian optimization improves AUROC up to 8.5% and AUPRC up to 10.6% for PPG AF detection on five datasets with over 400 patients.
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Learning Manifold and It\^o Dynamics with Branched Neural Rough Differential Equations
B-NRDEs recast NRDE log-ODE steps via Grossman-Larson and Munthe-Kaas-Wright rooted trees to enable intrinsic Itô and manifold dynamics with a branched signature-kernel objective.
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A Comprehensive Inference-Time Augmentation Framework in Physiological Signals: Application to PPG-Based AF Detection
A unified inference-time augmentation framework using 13 methods with Bayesian optimization improves AUROC up to 8.5% and AUPRC up to 10.6% for PPG AF detection on five datasets with over 400 patients.