Peiman Asadi scite author profile

Max-stable processes are the natural extension of the classical extreme-value distributions to the functional setting, and they are increasingly widely used to estimate probabilities of complex extreme events. In this paper we broaden them from the usual situation in which dependence varies according to functions of Euclidean distance to situations in which extreme river discharges at two locations on a river network may be dependent because the locations are flow-connected or because of common meteorological events. In the former case dependence depends on river distance, and in the second it depends on the hydrological distance between the locations, either of which may be very different from their Euclidean distance. Inference for the model parameters is performed using a multivariate threshold likelihood, which is shown by simulation to work well. The ideas are illustrated with data from the upper Danube basin.Comment: Published at http://dx.doi.org/10.1214/15-AOAS863 in the Annals of Applied Statistics (http://www.imstat.org/aoas/) by the Institute of Mathematical Statistics (http://www.imstat.org

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Optimal regionalization of extreme value distributions for flood estimation

Asadi

Engelke

Davison

2018

Journal of Hydrology

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Exact boundaries in sequential testing for phase-type distributions

Albrecher¹,

Asadi²,

Ivanovs³

2014

J. Appl. Probab.

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Abstract:We consider Wald's sequential probability ratio test for deciding whether a sequence of independent and identically distributed observations comes from a specified phase-type distribution or from an exponentially tilted alternative distribution. In this setting, we derive exact decision boundaries for given Type I and Type II errors by establishing a link with ruin theory. Information on the mean sample size of the test can be retrieved as well. The approach relies on the use of matrix-valued scale functions associated to a certain one-sided Markov additive process. By suitable transformations the results also apply to other types of distributions including some distributions with regularly varying tail.

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Exact boundaries in sequential testing for phase-type distributions

Albrecher¹,

Asadi²,

Ivanovs³

2014

Journal of Applied Probability

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We consider Wald's sequential probability ratio test for deciding whether a sequence of independent and identically distributed observations comes from a specified phase-type distribution or from an exponentially tilted alternative distribution. In this setting, we derive exact decision boundaries for given Type I and Type II errors by establishing a link with ruin theory. Information on the mean sample size of the test can be retrieved as well. The approach relies on the use of matrix-valued scale functions associated to a certain one-sided Markov additive process. By suitable transformations the results also apply to other types of distributions including some distributions with regularly varying tail.

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An unusual case of bilateral anterior shoulder and mandible dislocations

Mofìdi

Kianmehr²,

Farsi³

et al. 2010

The American Journal of Emergency Medicine

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Peiman Asadi

Extremes on river networks

Optimal regionalization of extreme value distributions for flood estimation

Exact boundaries in sequential testing for phase-type distributions

Exact boundaries in sequential testing for phase-type distributions

An unusual case of bilateral anterior shoulder and mandible dislocations

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