Loss functions engineering and the assessment of prediction performances are two crucial and intertwined aspects of supervised machine learning. This paper focuses on binary classification to introduce a class of loss functions that are defined on probabilistic confusion matrices and that allow an automatic and a priori maximization of the skill scores. These loss functions are tested in various classification experiments, which show that the probability distribution function associated with the confusion matrices significantly impacts the outcome of the score maximization process, and that the proposed functions are competitive with other state-of-the-art probabilistic losses.
Score-Oriented Loss (SOL) functions
Piana M;
2022
Abstract
Loss functions engineering and the assessment of prediction performances are two crucial and intertwined aspects of supervised machine learning. This paper focuses on binary classification to introduce a class of loss functions that are defined on probabilistic confusion matrices and that allow an automatic and a priori maximization of the skill scores. These loss functions are tested in various classification experiments, which show that the probability distribution function associated with the confusion matrices significantly impacts the outcome of the score maximization process, and that the proposed functions are competitive with other state-of-the-art probabilistic losses.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
