Your search keyword '"Bortolotti, Teresa"' showing total 2 results

1. An interpretable and transferable model for shallow landslides detachment combining spatial Poisson point processes and generalized additive models

Author

Patanè, Giulia, Bortolotti, Teresa, Yordanov, Vasil, Biagi, Ludovico Giorgio Aldo, Brovelli, Maria Antonia, Truong, Xuan Quang, and Vantini, Simone

Subjects

Statistics - Applications

Abstract

Less than 10 meters deep, shallow landslides are rapidly moving and strongly dangerous slides. In the present work, the probabilistic distribution of the landslide detachment points within a valley is modelled as a spatial Poisson point process, whose intensity depends on geophysical predictors according to a generalized additive model. Modelling the intensity with a generalized additive model jointly allows to obtain good predictive performance and to preserve the interpretability of the effects of the geophysical predictors on the intensity of the process. We propose a novel workflow, based on Random Forests, to select the geophysical predictors entering the model for the intensity. In this context, the statistically significant effects are interpreted as activating or stabilizing factors for landslide detachment. In order to guarantee the transferability of the resulting model, training, validation, and test of the algorithm are performed on mutually disjoint valleys in the Alps of Lombardy (Italy). Finally, the uncertainty around the estimated intensity of the process is quantified via semiparametric bootstrap.

Published

2024

2. Weighted Functional Data Analysis for the Calibration of a Ground Motion Model in Italy.

Author

Bortolotti, Teresa, Peli, Riccardo, Lanzano, Giovanni, Sgobba, Sara, and Menafoglio, Alessandra

Subjects

*GROUND motion, *EARTHQUAKE hazard analysis, *MOTION analysis, *DATA analysis, *OSCILLATIONS

Abstract

Motivated by the crucial implications of Ground Motion Models in terms of seismic hazard analysis and civil protection planning, this work extends a scalar Ground Motion Model for Italy to the framework of Functional Data Analysis. The inherent characteristic of seismic data to be incomplete over the observation domain of oscillation periods entails embedding the analysis in the context of partially observed functional data and performing data reconstruction. This work proposes a novel methodology that accounts for the fact that parts of the curves are directly observed and other parts are reconstructed, thus, characterized by greater uncertainty. The method defines observation-specific functional weights, which enter the estimation process to reduce the impact that the less reliable portions of the curves have on the final estimates. The classical methods of smoothing and concurrent functional regression are extended to include weights. The advantages of the proposed methodology are assessed on synthetic data. Eventually, the weighted functional analysis performed on seismological data is shown to provide a natural smoothing and stabilization of the spectral estimates of the Ground Motion Model considered. for this article are available online. [ABSTRACT FROM AUTHOR]

Published

2024