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Using Copulas to Model Extreme Events

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Title: Using Copulas to Model Extreme Events


1
Using Copulas to Model Extreme Events
  • by Donald F. Behan and Sam Cox
  • Georgia State University

2
Overview
  • Research sponsored by the Society of Actuaries
  • Paper to be posted on SoA web site
  • A tool for learning about and applying copulas to
    the modeling of extreme events

3
Executive Summary
  • All multivariate distributions may be analyzed as
    marginal distributions and a copula.
  • Allows focus on dependence relationship for known
    individual distributions.
  • A tool for implementing this model in Excel or
    Mathematica is to be distributed.

4
Copulas
  • A copula captures the dependence relationship in
    a multivariate distribution.
  • Given the marginal distributions of a
    multivariate distribution, the distribution is
    completely determined by its copula.
  • This process may be carried out for any
    multivariate distribution, without any
    assumptions about the nature of the distribution.

5
Copula Example
  • Start with an arbitrary bivariate distribution
    F(u,v) we chose a standard bivariate normal
    distribution with correlation coefficient 0.6.
  • Let the cumulative marginal distributions be X
    and Y.
  • Define C(X(u),Y(v)) F(u,v).
  • C is the copula associated with F.

6
Continuous and Discrete Distributions
  • Copulas are most easily visualized for continuous
    distributions.
  • Discrete distributions can be viewed as limits of
    continuous distributions.
  • If the marginals are not continuous, the copula
    is not unique, but it is unique for continuous
    distributions.

7
Numerical Examples
  • As an example, let F be the standard bivariate
    normal distribution with ? 0.6. Then F(0,0)
    0.352, i.e. the probability that u and v are both
    less than zero is 0.352.
  • Under these assumptions, X and Y are standard
    normal, so X(0) Y(0) 0.5. Therefore,
    C(0.5,0.5) 0.352.
  • F is reconstructed by the formula
    F(u,v)C(X(u),Y(v)).

8
Mathematical Foundation
  • Sklars Theorem (bivariate case) For any
    bivariate distribution F(u,v) with marginal
    distributions X(u) and Y(v) there exists a copula
    C such that F(u,v) C(X(u),Y(v)).
  • C is a copula if and only if it is a bivariate
    probability distribution on 0,1?0,1 with
    uniform marginals.

9
Dependence Structure
  • The marginal distributions can be changed while
    retaining the copula. This retains the
    dependence structure.
  • Example For (u,v) e 0,1?0,1 let
    C(u,v)max(u,v). This is the x y copula.
  • If the marginal distributions are equal and
    non-trivial, the correlation is 1.0.

10
Dependence vs. Correlation
  • In the preceding example (xy copula) let X be
    uniform, but let Y be the exponential
    distribution Y(v) 1 e-x. Then the
    correlation coefficient is 0.866.
  • Conclusion The correlation coefficient is not
    uniquely determined by the dependence.

11
Measures of Dependence
  • The copula uniquely determines the rank
    correlation.
  • Spearmans rho is an example of a measure of rank
    correlation. This is used in our examples.

12
Structure of the Example
  • To provide an example of the use of copulas to
    study dependence of extreme events, we assume
    that the marginals are known.
  • We assume that the dependence structure is known
    for common events, but not for extreme events.

13
Excel Tool
  • The Excel tool is intended as a learning vehicle,
    and as the basis to develop simulations.
  • The tool includes an assumed structure to
    facilitate learning.
  • The structure can be modified to simulate
    variables of interest.

14
Excel Tool, Continued
  • For illustration the marginal distributions are
    assumed to be a normal distribution and a
    lognormal distribution. Both have mean 1,000,000
    and standard deviation 50,000.
  • For events between the 5th and 95th percentile
    the assumed dependence structure is normal with
    correlation 0.6.

15
Excel Tool, Continued
  • The copula is displayed on a square grid.
  • The number of cells was kept small to facilitate
    manipulation rather than accurate modeling, and
    can be expanded.
  • The example provides for manipulation of the
    dependence structure.

16
Simulation Tool
  • Sim Tools, a free download provided by Roger
    Myerson at the University of Chicago, is used to
    simulate the results of the assumed dependence.
    _at_risk could be used as well.
  • Examples of alternative copulas and of
    manipulation of the given copula are provided in
    the Excel workbook.

17
Linearity of the Constraints
  • Constraints generated from the properties of a
    copula are linear.
  • Spearmans rho depends on the copula in a linear
    manner.
  • We have used the simplex method to compute
    various extreme configurations that are
    illustrated in the workbook and paper.

18
Conclusion
  • A tool consisting of an Excel workbook and an
    explanatory paper will be posted on the Society
    of Actuaries website.
  • While that is pending, the draft documents are
    available at my website www.behan.ws
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