@inproceedings{c3ba77ebaf4840fe9df6a7839c2e6b45,
title = "Individual Survival Curves with Conditional Normalizing Flows",
abstract = "Survival analysis, or time-to-event modelling, is a classical statistical problem that has garnered a lot of interest for its practical use in epidemiology, demographics or actuarial sciences. Recent advances on the subject from the point of view of machine learning have been concerned with precise per-individual predictions instead of population studies, driven by the rise of individualized medicine. We introduce here a conditional normalizing flow based estimate of the time-to-event density as a way to model highly flexible and individualized conditional survival distributions. We use a novel hierarchical formulation of normalizing flows to enable efficient fitting of flexible conditional distributions without overfitting and show how the normalizing flow formulation can be efficiently adapted to the censored setting. We experimentally validate the proposed approach on a synthetic dataset as well as four open medical datasets and an example of a common financial problem.",
keywords = "Financial modelling, Generative models, Normalizing flows, Portfolio optimization, survival analysis",
author = "Guillaume Ausset and Tom Ciffreo and Francois Portier and Stephan Cl{\'e}men{\c c}on and Timoth{\'e}e Papin",
note = "Publisher Copyright: {\textcopyright} 2021 IEEE.; 8th IEEE International Conference on Data Science and Advanced Analytics, DSAA 2021 ; Conference date: 06-10-2021 Through 09-10-2021",
year = "2021",
month = jan,
day = "1",
doi = "10.1109/DSAA53316.2021.9564222",
language = "English",
series = "2021 IEEE 8th International Conference on Data Science and Advanced Analytics, DSAA 2021",
publisher = "Institute of Electrical and Electronics Engineers Inc.",
booktitle = "2021 IEEE 8th International Conference on Data Science and Advanced Analytics, DSAA 2021",
}