dnacopula: Density Evaluation for (Nested) Archimedean Copulas
In copula: Multivariate Dependence with Copulas
dnacopula R Documentation
Density Evaluation for (Nested) Archimedean Copulas
Description
For a (nested) Archimedean copula (object of class nacopula)
x, dCopula(u, x) (or also currently still dnacopula(x, u))
evaluates the density of x at the given vector or matrix u.
Usage
## S4 method for signature 'matrix,nacopula'
dCopula(u, copula, log=FALSE, ...)
## *Deprecated*:
dnacopula(x, u, log=FALSE, ...)
Arguments
copula, x
an object of class "outer_nacopula".
u
argument of the copula x. Note that u can be a matrix in which case
the density is computed for each row of the matrix and the vector of
values is returned.
log
logical indicating if the log of the density
should be returned.
...
optional arguments passed to the copula's dacopula
function (slot), such as n.MC (non-negative integer) for
possible Monte Carlo evaluation (see dacopula in
acopula).
Details
If it exists, the density of an Archimedean copula C with
generator \psi at \bm{u}\in(0,1)^d is given by
c(\bm{u})=\psi^{(d)}(\psi^{-1}(u_1)+\dots+\psi^{-1}(u_d))
\prod_{j=1}^d(\psi^{-1}(u_j))^\prime
= \frac{\psi^{(d)}(\psi^{-1}(u_1)+\dots+\psi^{-1}(u_d))}{
\prod_{j=1}^d\psi^\prime(\psi^{-1}(u_j))}.
Value
A numeric vector containing the values of the density of the
Archimedean copula at u.
Note
dCopula(u, copula) is a generic function with
methods for all our copula classes, see dCopula.
References
Hofert, M., Mächler, M., and McNeil, A. J. (2012).
Likelihood inference for Archimedean copulas in high dimensions
under known margins. Journal of Multivariate Analysis
110, 133–150.
Hofert, M., Mächler, M., and McNeil, A. J. (2013).
Archimedean Copulas in High Dimensions: Estimators and Numerical
Challenges Motivated by Financial Applications.
Journal de la Société Française de
Statistique
154(1), 25–63.
See Also
For more details about the derivatives of an Archimedean generator,
see, for example, absdPsi in class acopula.
Examples
## Construct a twenty-dimensional Gumbel copula with parameter chosen
## such that Kendall's tau of the bivariate margins is 0.25.
theta <- copJoe@iTau(.25)
C20 <- onacopula("J", C(theta, 1:20))
## Evaluate the copula density at the point u = (0.5,...,0.5)
u <- rep(0.5, 20)
dCopula(u, C20)
## the same with Monte Carlo based on 10000 simulated "frailties"
dCopula(u, C20, n.MC = 10000)
## Evaluate the exact log-density at several points
u <- matrix(runif(100), ncol=20)
dCopula(u, C20, log = TRUE)
## Back-compatibility check
stopifnot(identical( dCopula (u, C20), suppressWarnings(
dnacopula(C20, u))),
identical( dCopula (u, C20, log = TRUE), suppressWarnings(
dnacopula(C20, u, log = TRUE))))
copula documentation built on Feb. 7, 2024, 3:01 p.m.
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| dnacopula | R Documentation |
Density Evaluation for (Nested) Archimedean Copulas
Description
For a (nested) Archimedean copula (object of class nacopula)
x, dCopula(u, x) (or also currently still dnacopula(x, u))
evaluates the density of x at the given vector or matrix u.
Usage
## S4 method for signature 'matrix,nacopula'
dCopula(u, copula, log=FALSE, ...)
## *Deprecated*:
dnacopula(x, u, log=FALSE, ...)
Arguments
copula, x |
an object of class |
u |
argument of the copula x. Note that u can be a matrix in which case the density is computed for each row of the matrix and the vector of values is returned. |
log |
logical indicating if the |
... |
optional arguments passed to the copula's |
Details
If it exists, the density of an Archimedean copula C with
generator \psi at \bm{u}\in(0,1)^d is given by
c(\bm{u})=\psi^{(d)}(\psi^{-1}(u_1)+\dots+\psi^{-1}(u_d))
\prod_{j=1}^d(\psi^{-1}(u_j))^\prime
= \frac{\psi^{(d)}(\psi^{-1}(u_1)+\dots+\psi^{-1}(u_d))}{
\prod_{j=1}^d\psi^\prime(\psi^{-1}(u_j))}.
Value
A numeric vector containing the values of the density of the
Archimedean copula at u.
Note
dCopula(u, copula) is a generic function with
methods for all our copula classes, see dCopula.
References
Hofert, M., Mächler, M., and McNeil, A. J. (2012). Likelihood inference for Archimedean copulas in high dimensions under known margins. Journal of Multivariate Analysis 110, 133–150.
Hofert, M., Mächler, M., and McNeil, A. J. (2013). Archimedean Copulas in High Dimensions: Estimators and Numerical Challenges Motivated by Financial Applications. Journal de la Société Française de Statistique 154(1), 25–63.
See Also
For more details about the derivatives of an Archimedean generator,
see, for example, absdPsi in class acopula.
Examples
## Construct a twenty-dimensional Gumbel copula with parameter chosen
## such that Kendall's tau of the bivariate margins is 0.25.
theta <- copJoe@iTau(.25)
C20 <- onacopula("J", C(theta, 1:20))
## Evaluate the copula density at the point u = (0.5,...,0.5)
u <- rep(0.5, 20)
dCopula(u, C20)
## the same with Monte Carlo based on 10000 simulated "frailties"
dCopula(u, C20, n.MC = 10000)
## Evaluate the exact log-density at several points
u <- matrix(runif(100), ncol=20)
dCopula(u, C20, log = TRUE)
## Back-compatibility check
stopifnot(identical( dCopula (u, C20), suppressWarnings(
dnacopula(C20, u))),
identical( dCopula (u, C20, log = TRUE), suppressWarnings(
dnacopula(C20, u, log = TRUE))))
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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