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VineCopula (version 2.6.0)

RVineCopSelect: Sequential Pair-Copula Selection and Estimation for R-Vine Copula Models

Description

This function fits a R-vine copula model to a d-dimensional copula data set. Pair-copula families are selected using BiCopSelect() and estimated sequentially.

Usage

RVineCopSelect(
  data,
  familyset = NA,
  Matrix,
  selectioncrit = "AIC",
  indeptest = FALSE,
  level = 0.05,
  trunclevel = NA,
  weights = NA,
  rotations = TRUE,
  se = FALSE,
  presel = TRUE,
  method = "mle",
  cores = 1
)

Value

An RVineMatrix() object with the selected families (RVM$family) as well as sequentially estimated parameters stored in RVM$par and RVM$par2. The object is augmented by the following information about the fit:

se, se2

standard errors for the parameter estimates (if se = TRUE; note that these are only approximate since they do not account for the sequential nature of the estimation,

nobs

number of observations,

logLik, pair.logLik

log likelihood (overall and pairwise)

AIC, pair.AIC

Aikaike's Informaton Criterion (overall and pairwise),

BIC, pair.BIC

Bayesian's Informaton Criterion (overall and pairwise),

emptau

matrix of empirical values of Kendall's tau,

p.value.indeptest

matrix of p-values of the independence test.

#'

Arguments

data

N x d data matrix (with uniform margins).

familyset

integer vector of pair-copula families to select from. The vector has to include at least one pair-copula family that allows for positive and one that allows for negative dependence. Not listed copula families might be included to better handle limit cases. If familyset = NA (default), selection among all possible families is performed. If a vector of negative numbers is provided, selection among all but abs(familyset) is performed. Coding of pair copula families is the same as in BiCop().

Matrix

lower or upper triangular d x d matrix that defines the R-vine tree structure.

selectioncrit

Character indicating the criterion for pair-copula selection. Possible choices: selectioncrit = "AIC" (default), "BIC", or "logLik" (see BiCopSelect()).

indeptest

Logical; whether a hypothesis test for the independence of u1 and u2 is performed before bivariate copula selection (default: indeptest = FALSE; see BiCopIndTest()). The independence copula is chosen for a (conditional) pair if the null hypothesis of independence cannot be rejected.

level

numeric; significance level of the independence test (default: level = 0.05).

trunclevel

integer; level of truncation.

weights

Numerical; weights for each observation (optional).

rotations

logical; if TRUE, all rotations of the families in familyset are included.

se

Logical; whether standard errors are estimated (default: se = FALSE).

presel

Logical; whether to exclude families before fitting based on symmetry properties of the data. Makes the selection about 30\ (on average), but may yield slightly worse results in few special cases.

method

indicates the estimation method: either maximum likelihood estimation (method = "mle"; default) or inversion of Kendall's tau (method = "itau"). For method = "itau" only one parameter families and the Student t copula can be used (family = 1,2,3,4,5,6,13,14,16,23,24,26,33,34 or 36). For the t-copula, par2 is found by a crude profile likelihood optimization over the interval (2, 10].

cores

integer; if cores > 1, estimation will be parallelized within each tree (using parallel::parLapply()). Note that parallelization causes substantial overhead and may be slower than single-threaded computation when dimension, sample size, or family set are small or method = "itau".

Author

Eike Brechmann, Thomas Nagler

Details

R-vine copula models with unknown structure can be specified using RVineStructureSelect().

References

Brechmann, E. C., C. Czado, and K. Aas (2012). Truncated regular vines in high dimensions with applications to financial data. Canadian Journal of Statistics 40 (1), 68-85.

Dissmann, J. F., E. C. Brechmann, C. Czado, and D. Kurowicka (2013). Selecting and estimating regular vine copulae and application to financial returns. Computational Statistics & Data Analysis, 59 (1), 52-69.

See Also

RVineMatrix(), BiCop(), BiCopSelect(), plot.RVineMatrix(), contour.RVineMatrix()

Examples

Run this code

# define 5-dimensional R-vine tree structure matrix
Matrix <- c(5, 2, 3, 1, 4,
            0, 2, 3, 4, 1,
            0, 0, 3, 4, 1,
            0, 0, 0, 4, 1,
            0, 0, 0, 0, 1)
Matrix <- matrix(Matrix, 5, 5)
# define R-vine pair-copula family matrix
family <- c(0, 1, 3, 4, 4,
            0, 0, 3, 4, 1,
            0, 0, 0, 4, 1,
            0, 0, 0, 0, 3,
            0, 0, 0, 0, 0)
family <- matrix(family, 5, 5)
# define R-vine pair-copula parameter matrix
par <- c(0, 0.2, 0.9, 1.5, 3.9,
         0, 0, 1.1, 1.6, 0.9,
         0, 0, 0, 1.9, 0.5,
         0, 0, 0, 0, 4.8,
         0, 0, 0, 0, 0)
par <- matrix(par, 5, 5)
# define second R-vine pair-copula parameter matrix
par2 <- matrix(0, 5, 5)

## define RVineMatrix object
RVM <- RVineMatrix(Matrix = Matrix, family = family,
                   par = par, par2 = par2,
                   names = c("V1", "V2", "V3", "V4", "V5"))

## simulate a sample of size 500 from the R-vine copula model
set.seed(123)
simdata <- RVineSim(500, RVM)

## determine the pair-copula families and parameters
RVM1 <- RVineCopSelect(simdata, familyset = c(1, 3, 4, 5 ,6), Matrix)

## see the object's content or a summary
str(RVM1)
summary(RVM1)

## inspect the fitted model using plots
if (FALSE) plot(RVM1)  # tree structure

contour(RVM1)  # contour plots of all pair-copulas

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