Dépôt numérique

Data-based analysis of bivariate copula tail dependence for drought duration and severity.

Lee, Taesam; Modarres, Reza; Ouarda, Taha B. M. J. (2013). Data-based analysis of bivariate copula tail dependence for drought duration and severity. Hydrological Processes , vol. 27 , nº 10. p. 1454-1463. DOI: 10.1002/hyp.9233.

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In recent decades, copula functions have been applied in bivariate drought duration and severity frequency analysis. Among several potential copulas, Clayton has been mostly used in drought analysis. In this research, we studied the influence of the tail shape of various copula functions (i.e. Gumbel, Frank, Clayton and Gaussian) on drought bivariate frequency analysis. The appropriateness of Clayton copula for the characterization of drought characteristics is also investigated. Drought data are extracted from standardized precipitation index time series for four stations in Canada (La Tuque and Grande Prairie) and Iran (Anzali and Zahedan). Both duration and severity data sets are positively skewed. Different marginal distributions were first fitted to drought duration and severity data. The gamma and exponential distributions were selected for drought duration and severity, respectively, according to the positive skewness and Kolmogorov-Smirnov test. The results of copula modelling show that the Clayton copula function is not an appropriate choice for the used data sets in the current study and does not give more drought risk information than an independent model for which the duration and severity dependence is not significant. The reason is that the dependence of two variables in the upper tail of Clayton copula is very weak and similar to the independent case, whereas the observed data in the transformed domain of cumulative density function show high association in the upper tail. Instead, the Frank and Gumbel copula functions show better performance than Clayton function for drought bivariate frequency analysis.

Type de document:
Mots-clés libres: bivariate frequency analysis; Clayton copula; distribution tail; drought; joint distribution
Centre: Centre Eau Terre Environnement
Date de dépôt: 06 déc. 2016 21:28
Dernière modification: 06 déc. 2016 21:28
URI: http://espace.inrs.ca/id/eprint/3466

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