Mediterranean cyclones are extreme meteorological events of which much less is known compared to their tropical, oceanic counterparts. The rising interest in such phenomena is due to their impact on a region increasingly more affected by climate change, but a precise characterization remains a nontrivial task. In this work, we showcase how a Bayesian algorithm (Latent Dirichlet Allocation) can classify Mediterranean cyclones relying on wind velocity data, leading to a drastic dimensional reduction that allows the use of supervised statistical learning techniques for detecting and tracking new cyclones.
A statistical learning approach to Mediterranean cyclones
L. Roveri;F. Grotto
2025-01-01
Abstract
Mediterranean cyclones are extreme meteorological events of which much less is known compared to their tropical, oceanic counterparts. The rising interest in such phenomena is due to their impact on a region increasingly more affected by climate change, but a precise characterization remains a nontrivial task. In this work, we showcase how a Bayesian algorithm (Latent Dirichlet Allocation) can classify Mediterranean cyclones relying on wind velocity data, leading to a drastic dimensional reduction that allows the use of supervised statistical learning techniques for detecting and tracking new cyclones.File in questo prodotto:
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