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Modeling Extremes with d-max-decreasing Neural Networks

Publication ,  Conference
Hasan, A; Elkhalil, K; Ng, Y; Pereira, JM; Farsiu, S; Blanchet, J; Tarokh, V
Published in: Proceedings of Machine Learning Research
January 1, 2022

We propose a neural network architecture that enables non-parametric calibration and generation of multivariate extreme value distributions (MEVs). MEVs arise from Extreme Value Theory (EVT) as the necessary class of models when extrapolating a distributional fit over large spatial and temporal scales based on data observed in intermediate scales. In turn, EVT dictates that d-max-decreasing, a stronger form of convexity, is an essential shape constraint in the characterization of MEVs. As far as we know, our proposed architecture provides the first class of non-parametric estimators for MEVs that preserve these essential shape constraints. We show that the architecture approximates the dependence structure encoded by MEVs at parametric rate. Moreover, we present a new method for sampling high-dimensional MEVs using a generative model. We demonstrate our methodology on a wide range of experimental settings, ranging from environmental sciences to financial mathematics and verify that the structural properties of MEVs are retained compared to existing methods.

Duke Scholars

Published In

Proceedings of Machine Learning Research

EISSN

2640-3498

Publication Date

January 1, 2022

Volume

180

Start / End Page

759 / 768
 

Citation

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Hasan, A., Elkhalil, K., Ng, Y., Pereira, J. M., Farsiu, S., Blanchet, J., & Tarokh, V. (2022). Modeling Extremes with d-max-decreasing Neural Networks. In Proceedings of Machine Learning Research (Vol. 180, pp. 759–768).
Hasan, A., K. Elkhalil, Y. Ng, J. M. Pereira, S. Farsiu, J. Blanchet, and V. Tarokh. “Modeling Extremes with d-max-decreasing Neural Networks.” In Proceedings of Machine Learning Research, 180:759–68, 2022.
Hasan A, Elkhalil K, Ng Y, Pereira JM, Farsiu S, Blanchet J, et al. Modeling Extremes with d-max-decreasing Neural Networks. In: Proceedings of Machine Learning Research. 2022. p. 759–68.
Hasan, A., et al. “Modeling Extremes with d-max-decreasing Neural Networks.” Proceedings of Machine Learning Research, vol. 180, 2022, pp. 759–68.
Hasan A, Elkhalil K, Ng Y, Pereira JM, Farsiu S, Blanchet J, Tarokh V. Modeling Extremes with d-max-decreasing Neural Networks. Proceedings of Machine Learning Research. 2022. p. 759–768.

Published In

Proceedings of Machine Learning Research

EISSN

2640-3498

Publication Date

January 1, 2022

Volume

180

Start / End Page

759 / 768