Multivariate quantiles in hydrological frequency analysis

Several hydrological phenomena are described by two or more correlated characteristics. These dependent characteristics should be considered jointly to be more representative of the multivariate nature of the phenomenon. Consequently, probabilities of occurrence cannot be estimated on the basis of u...

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Bibliographic Details
Published in:Environmetrics (London, Ont.) Ont.), 2011-02, Vol.22 (1), p.63-78
Main Authors: Chebana, F., Ouarda, T.B.M.J.
Format: Article
Language:English
Subjects:
Correlation
Equivalence
Estimates
estimation
floods
frequency analysis
Hydrology
multivariate quantile
Performance evaluation
Quantiles
Risk
Simulation
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Summary:Several hydrological phenomena are described by two or more correlated characteristics. These dependent characteristics should be considered jointly to be more representative of the multivariate nature of the phenomenon. Consequently, probabilities of occurrence cannot be estimated on the basis of univariate frequency analysis (FA). The quantile, representing the value of the variable(s) corresponding to a given risk, is one of the most important notions in FA. The estimation of multivariate quantiles has not been specifically treated in the hydrological FA literature. In the present paper, we present a new and general framework for local FA based on a multivariate quantile version. The multivariate quantile offers several combinations of the variable values that lead to the same risk. A simulation study is carried out to evaluate the performance of the proposed estimation procedure and a case study is conducted. Results show that the bivariate estimation procedure has an analogous behaviour to the univariate one with respect to the risk and the sample size. However, the dependence structure between variables is ignored in the univariate case. The univariate estimates are obtained as special combinations by the multivariate procedure and with equivalent accuracy. Copyright © 2009 John Wiley & Sons, Ltd.
ISSN:1180-4009
1099-095X
1099-095X
DOI:10.1002/env.1027