Survival random forest for functional data (SRFFD) is an enhanced version of the SRF algorithm specifically developed to incorporate functional data as predictors in survival analysis. Inspired by a recent study, where a supervised classification method via a combined use of functional data analysis and tree-based methods is proposed, innovative functional splitting rules are introduced within SRFFD, enabling the generation of functional predictions even in the presence of complex or unknown relationships in the data. These novel splitting rules are carefully designed to capture the essential features and patterns inherent in the functional predictors. By leveraging these functional indices, the predictive capabilities of the SRF algorithm are significantly enhanced, resulting in more accurate and reliable predictions. To generate the final prediction, the individual predictions are aggregated from all the trees in the forest. This ensemble approach leverages the collective knowledge of the trees and incorporates the unique aspects of functional data, ultimately leading to improved performance in the prediction process.

Random survival forest for functional data

Giuseppe Loffredo
Membro del Collaboration Group
;
Elvira Romano
Membro del Collaboration Group
;
Fabrizio Maturo
Membro del Collaboration Group
2023

Abstract

Survival random forest for functional data (SRFFD) is an enhanced version of the SRF algorithm specifically developed to incorporate functional data as predictors in survival analysis. Inspired by a recent study, where a supervised classification method via a combined use of functional data analysis and tree-based methods is proposed, innovative functional splitting rules are introduced within SRFFD, enabling the generation of functional predictions even in the presence of complex or unknown relationships in the data. These novel splitting rules are carefully designed to capture the essential features and patterns inherent in the functional predictors. By leveraging these functional indices, the predictive capabilities of the SRF algorithm are significantly enhanced, resulting in more accurate and reliable predictions. To generate the final prediction, the individual predictions are aggregated from all the trees in the forest. This ensemble approach leverages the collective knowledge of the trees and incorporates the unique aspects of functional data, ultimately leading to improved performance in the prediction process.
2023
978-9925-7812-7-0
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11591/523448
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