Lund University Publications

Characterisation and Some Statistical Aspects of Univariate and Multivariate Generalise d Pareto Distributions

• Mark

Tajvidi, Nader ^LU

Abstract

Extreme value theory is about the distributions of very large or

very small values in a time series or stochastic process. This has

numerous applications connected with environmental science, civil

engineering, materials science and insurance. A rather recent

approach for modelling extreme events is the so called peak over

threshold (POT) method. The generalised Pareto distribution (GPD) is

a two-parameter family of distributions which can be used to model

exceedances over a threshold.



This thesis consists of three papers. The main focus is on some

theoretical and applied statistical issues of univariate and

multivariate extreme... (More)

Extreme value theory is about the distributions of very large or

very small values in a time series or stochastic process. This has

numerous applications connected with environmental science, civil

engineering, materials science and insurance. A rather recent

approach for modelling extreme events is the so called peak over

threshold (POT) method. The generalised Pareto distribution (GPD) is

a two-parameter family of distributions which can be used to model

exceedances over a threshold.



This thesis consists of three papers. The main focus is on some

theoretical and applied statistical issues of univariate and

multivariate extreme value modelling. In the first paper we compare

the empirical coverage of standard bootstrap and likelihood-based

confidence intervals for the parameters and 90\%-quantile of the

GPD. By applying a general method of D.~N.~Lawley, small sample

correction factors for likelihood ratio statistics of the parameters

and quantiles of the GPD have been calculated. The article also

investigates the performance of some bootstrap methods for

estimation of accuracy measures of maximum likelihood estimators of

parameters and quantiles of the GPD.



In the second paper we give a multivariate analogue of

the GPD and consider estimation of parameters in some specific

bivariate generalised Pareto distributions (BGPD's). We generalise

two of existing bivariate extreme value distributions and study

maximum likelihood estimation of parameters in the corresponding

BGPD's. The procedure is illustrated with an application to a

bivariate series of wind data.



The main interest in the thesis has

been on practicality of the methods so when a new method has been

developed, it's performance has been studied with the help of both

real life data and simulations. In the third paper we use three

previous articles as examples to illustrate difficulties which might

arise in application of the theory and methods which may be used to

solve them. A common theme in these articles is univariate and

multivariate generalised Pareto distributions. However, the

discussed problems are of a rather general nature and demonstrate

some typical tasks in applied statistical research. We also discuss

a general approach to design and implementation of statistical

computations. (Less)