Séminaire des Doctorant·e·s :

Le 14 septembre 2022 à 17:30 - Salle 109


Présentée par Garcin Camille - IMAG, INRIA, Université de Montpellier

Stochastic smoothing of the top-K calibrated hinge loss for deep imbalanced classification



Modern classification tasks can include several thousand classes, possibly very similar. One such example is the Pl@ntNet application, which aims to provide users with the correct plant species given an input image. In this context, high ambiguity results in low top-1 accuracy. This motivates top-K classification, in which K possible classes are returned. Yet, proposing top-K losses (to minimize the top-K error) tailored for deep learning remains a challenge, both theoretically and practically. We will present a stochastic top-K hinge loss for deep learning inspired by recent developments on top-K calibrated losses. The proposal is based on the smoothing of the top-K operator building on the flexible "perturbed optimizer" framework. We show that our loss function performs well for balanced datasets. In addition, we propose a simple variant of our loss to handle imbalanced cases that significantly outperforms other baseline loss functions on Pl@ntNet-300K. The latter is an open dataset of plant images obtained from the Pl@ntNet application, characterized by high ambiguity and a long-tailed distribution, that we recently released. This is joint work with Maximilien Servajean, Alexis Joly and Joseph Salmon.



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