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On the Exact Distribution of Correlated Extremes in Hydrology

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Zeitschriftentitel: Water Resources Research
Personen und Körperschaften: Lombardo, F., Napolitano, F., Russo, F., Koutsoyiannis, D.
In: Water Resources Research, 55, 2019, 12, S. 10405-10423
Format: E-Article
Sprache: Englisch
veröffentlicht:
American Geophysical Union (AGU)
Schlagwörter:
Water Science and Technology
author_facet Lombardo, F.
Napolitano, F.
Russo, F.
Koutsoyiannis, D.
Lombardo, F.
Napolitano, F.
Russo, F.
Koutsoyiannis, D.
author Lombardo, F.
Napolitano, F.
Russo, F.
Koutsoyiannis, D.
spellingShingle Lombardo, F.
Napolitano, F.
Russo, F.
Koutsoyiannis, D.
Water Resources Research
On the Exact Distribution of Correlated Extremes in Hydrology
Water Science and Technology
author_sort lombardo, f.
spelling Lombardo, F. Napolitano, F. Russo, F. Koutsoyiannis, D. 0043-1397 1944-7973 American Geophysical Union (AGU) Water Science and Technology http://dx.doi.org/10.1029/2019wr025547 <jats:title>Abstract</jats:title><jats:p>The analysis of hydrological hazards usually relies on asymptotic results of extreme value theory, which commonly deals with block maxima or peaks over threshold (POT) data series. However, data quality and quantity of block maxima and POT hydrological records do not usually fulfill the basic requirements of extreme value theory, thus making its application questionable and results prone to high uncertainty and low reliability. An alternative approach to better exploit the available information of continuous time series and nonextreme records is to build the exact distribution of maxima (i.e., nonasymptotic extreme value distributions) from a sequence of low‐threshold POT. Practical closed‐form results for this approach do exist only for independent high‐threshold POT series with Poisson occurrences. This study introduces new closed‐form equations of the exact distribution of maxima taken from low‐threshold POT with magnitudes characterized by an arbitrary marginal distribution and first‐order Markovian dependence, and negative binomial occurrences. The proposed model encompasses and generalizes the independent‐Poisson model and allows for analyses relying on significantly larger samples of low‐threshold POT values exhibiting dependence, temporal clustering, and overdispersion. To check the analytical results, we also introduce a new generator (called Gen2Mp) of proper first‐order Markov chains with arbitrary marginal distributions. An illustrative application to long‐term rainfall and streamflow data series shows that our model for the distribution of extreme maxima under dependence takes a step forward in developing more reliable data‐rich‐based analyses of extreme values.</jats:p> On the Exact Distribution of Correlated Extremes in Hydrology Water Resources Research
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title On the Exact Distribution of Correlated Extremes in Hydrology
title_unstemmed On the Exact Distribution of Correlated Extremes in Hydrology
title_full On the Exact Distribution of Correlated Extremes in Hydrology
title_fullStr On the Exact Distribution of Correlated Extremes in Hydrology
title_full_unstemmed On the Exact Distribution of Correlated Extremes in Hydrology
title_short On the Exact Distribution of Correlated Extremes in Hydrology
title_sort on the exact distribution of correlated extremes in hydrology
topic Water Science and Technology
url http://dx.doi.org/10.1029/2019wr025547
publishDate 2019
physical 10405-10423
description <jats:title>Abstract</jats:title><jats:p>The analysis of hydrological hazards usually relies on asymptotic results of extreme value theory, which commonly deals with block maxima or peaks over threshold (POT) data series. However, data quality and quantity of block maxima and POT hydrological records do not usually fulfill the basic requirements of extreme value theory, thus making its application questionable and results prone to high uncertainty and low reliability. An alternative approach to better exploit the available information of continuous time series and nonextreme records is to build the exact distribution of maxima (i.e., nonasymptotic extreme value distributions) from a sequence of low‐threshold POT. Practical closed‐form results for this approach do exist only for independent high‐threshold POT series with Poisson occurrences. This study introduces new closed‐form equations of the exact distribution of maxima taken from low‐threshold POT with magnitudes characterized by an arbitrary marginal distribution and first‐order Markovian dependence, and negative binomial occurrences. The proposed model encompasses and generalizes the independent‐Poisson model and allows for analyses relying on significantly larger samples of low‐threshold POT values exhibiting dependence, temporal clustering, and overdispersion. To check the analytical results, we also introduce a new generator (called Gen2Mp) of proper first‐order Markov chains with arbitrary marginal distributions. An illustrative application to long‐term rainfall and streamflow data series shows that our model for the distribution of extreme maxima under dependence takes a step forward in developing more reliable data‐rich‐based analyses of extreme values.</jats:p>
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author Lombardo, F., Napolitano, F., Russo, F., Koutsoyiannis, D.
author_facet Lombardo, F., Napolitano, F., Russo, F., Koutsoyiannis, D., Lombardo, F., Napolitano, F., Russo, F., Koutsoyiannis, D.
author_sort lombardo, f.
container_issue 12
container_start_page 10405
container_title Water Resources Research
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description <jats:title>Abstract</jats:title><jats:p>The analysis of hydrological hazards usually relies on asymptotic results of extreme value theory, which commonly deals with block maxima or peaks over threshold (POT) data series. However, data quality and quantity of block maxima and POT hydrological records do not usually fulfill the basic requirements of extreme value theory, thus making its application questionable and results prone to high uncertainty and low reliability. An alternative approach to better exploit the available information of continuous time series and nonextreme records is to build the exact distribution of maxima (i.e., nonasymptotic extreme value distributions) from a sequence of low‐threshold POT. Practical closed‐form results for this approach do exist only for independent high‐threshold POT series with Poisson occurrences. This study introduces new closed‐form equations of the exact distribution of maxima taken from low‐threshold POT with magnitudes characterized by an arbitrary marginal distribution and first‐order Markovian dependence, and negative binomial occurrences. The proposed model encompasses and generalizes the independent‐Poisson model and allows for analyses relying on significantly larger samples of low‐threshold POT values exhibiting dependence, temporal clustering, and overdispersion. To check the analytical results, we also introduce a new generator (called Gen2Mp) of proper first‐order Markov chains with arbitrary marginal distributions. An illustrative application to long‐term rainfall and streamflow data series shows that our model for the distribution of extreme maxima under dependence takes a step forward in developing more reliable data‐rich‐based analyses of extreme values.</jats:p>
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spelling Lombardo, F. Napolitano, F. Russo, F. Koutsoyiannis, D. 0043-1397 1944-7973 American Geophysical Union (AGU) Water Science and Technology http://dx.doi.org/10.1029/2019wr025547 <jats:title>Abstract</jats:title><jats:p>The analysis of hydrological hazards usually relies on asymptotic results of extreme value theory, which commonly deals with block maxima or peaks over threshold (POT) data series. However, data quality and quantity of block maxima and POT hydrological records do not usually fulfill the basic requirements of extreme value theory, thus making its application questionable and results prone to high uncertainty and low reliability. An alternative approach to better exploit the available information of continuous time series and nonextreme records is to build the exact distribution of maxima (i.e., nonasymptotic extreme value distributions) from a sequence of low‐threshold POT. Practical closed‐form results for this approach do exist only for independent high‐threshold POT series with Poisson occurrences. This study introduces new closed‐form equations of the exact distribution of maxima taken from low‐threshold POT with magnitudes characterized by an arbitrary marginal distribution and first‐order Markovian dependence, and negative binomial occurrences. The proposed model encompasses and generalizes the independent‐Poisson model and allows for analyses relying on significantly larger samples of low‐threshold POT values exhibiting dependence, temporal clustering, and overdispersion. To check the analytical results, we also introduce a new generator (called Gen2Mp) of proper first‐order Markov chains with arbitrary marginal distributions. An illustrative application to long‐term rainfall and streamflow data series shows that our model for the distribution of extreme maxima under dependence takes a step forward in developing more reliable data‐rich‐based analyses of extreme values.</jats:p> On the Exact Distribution of Correlated Extremes in Hydrology Water Resources Research
spellingShingle Lombardo, F., Napolitano, F., Russo, F., Koutsoyiannis, D., Water Resources Research, On the Exact Distribution of Correlated Extremes in Hydrology, Water Science and Technology
title On the Exact Distribution of Correlated Extremes in Hydrology
title_full On the Exact Distribution of Correlated Extremes in Hydrology
title_fullStr On the Exact Distribution of Correlated Extremes in Hydrology
title_full_unstemmed On the Exact Distribution of Correlated Extremes in Hydrology
title_short On the Exact Distribution of Correlated Extremes in Hydrology
title_sort on the exact distribution of correlated extremes in hydrology
title_unstemmed On the Exact Distribution of Correlated Extremes in Hydrology
topic Water Science and Technology
url http://dx.doi.org/10.1029/2019wr025547