Beyond Tikhonov: Faster Learning with Self-Concordant Losses via Iterative Regularization - Apprentissage de modèles visuels à partir de données massives
Communication Dans Un Congrès Année : 2021

Beyond Tikhonov: Faster Learning with Self-Concordant Losses via Iterative Regularization

Résumé

The theory of spectral filtering is a remarkable tool to understand the statistical properties of learning with kernels. For least squares, it allows to derive various regularization schemes that yield faster convergence rates of the excess risk than with Tikhonov regularization. This is typically achieved by leveraging classical assumptions called source and capacity conditions, which characterize the difficulty of the learning task. In order to understand estimators derived from other loss functions, Marteau-Ferey et al. have extended the theory of Tikhonov regularization to generalized self concordant loss functions (GSC), which contain, e.g., the logistic loss. In this paper, we go a step further and show that fast and optimal rates can be achieved for GSC by using the iterated Tikhonov regularization scheme, which is intrinsically related to the proximal point method in optimization, and overcomes the limitation of the classical Tikhonov regularization.
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Dates et versions

hal-03406072 , version 1 (05-07-2024)

Identifiants

Citer

Gaspard Beugnot, Julien Mairal, Alessandro Rudi. Beyond Tikhonov: Faster Learning with Self-Concordant Losses via Iterative Regularization. NeurIPS 2021 – 35th Annual Conference on Neural Information Processing Systems, Dec 2021, Virtual, France. pp.28196-28207, ⟨10.5555/3540261.3542421⟩. ⟨hal-03406072⟩
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