nigMeanVarMode: Moments and Mode of the Normal Inverse Gaussian Distribution
In GeneralizedHyperbolic: The Generalized Hyperbolic Distribution
Specific Normal Inverse Gaussian Distribution Moments and Mode R Documentation
Moments and Mode of the Normal Inverse Gaussian Distribution
Description
Functions to calculate the mean, variance, skewness, kurtosis and mode
of a specific normal inverse Gaussian distribution.
Usage
nigMean(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigVar(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigSkew(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigKurt(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigMode(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
Arguments
mu
\mu is the location parameter. By default this is
set to 0.
delta
\delta is the scale parameter of the distribution.
A default value of 1 has been set.
alpha
\alpha is the tail parameter, with a default
value of 1.
beta
\beta is the skewness parameter, by default
this is 0.
param
Parameter vector of the normal inverse Gaussian
distribution.
Details
The mean, variance, skewness, kurtosis and mode for the normal inverse
Gaussian distribution can be obtained from the functions for the
generalized hyperbolic distribution as special cases (i.e.,
\lambda = -1/2). Likewise other moments can be obtained
from the function ghypMom which implements a recursive
method to moments of any desired order.
The proper formulae for the mean, variance and skewness of the normal
inverse Gaussian distribution can be found in Paolella, Marc S. (2007),
Chapter 9, p325.
Value
nigMean gives the mean of the normal inverse Gaussian distribution,
nigVar the variance, nigSkew the skewness,
nigKurt the kurtosis and nigMode the mode.
Note that the kurtosis is the standardised fourth cumulant or what is
sometimes called the kurtosis excess. (See
http://mathworld.wolfram.com/Kurtosis.html for a discussion.)
The parameterization of the normal inverse Gaussian distribution used
for this and other components of the GeneralizedHyperbolic
package is the (\alpha, \beta) one. See
hyperbChangePars to transfer between parameterizations.
Author(s)
David Scott d.scott@auckland.ac.nz, Christine Yang Dong
References
Paolella, Marc S. (2007)
Intermediate Probability: A Computational Approach,
Chichester: Wiley
See Also
dnig, hyperbChangePars,
besselK, ghypMom, ghypMean,
ghypVar, ghypSkew, ghypKurt
Examples
param <- c(2, 2, 2, 1)
nigMean(param = param)
nigVar(param = param)
nigSkew(param = param)
nigKurt(param = param)
nigMode(param = param)
GeneralizedHyperbolic documentation built on Nov. 26, 2023, 3 p.m.
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| Specific Normal Inverse Gaussian Distribution Moments and Mode | R Documentation |
Moments and Mode of the Normal Inverse Gaussian Distribution
Description
Functions to calculate the mean, variance, skewness, kurtosis and mode of a specific normal inverse Gaussian distribution.
Usage
nigMean(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigVar(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigSkew(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigKurt(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
nigMode(mu = 0, delta = 1, alpha = 1, beta = 0,
param = c(mu, delta, alpha, beta))
Arguments
mu |
|
delta |
|
alpha |
|
beta |
|
param |
Parameter vector of the normal inverse Gaussian distribution. |
Details
The mean, variance, skewness, kurtosis and mode for the normal inverse
Gaussian distribution can be obtained from the functions for the
generalized hyperbolic distribution as special cases (i.e.,
\lambda = -1/2). Likewise other moments can be obtained
from the function ghypMom which implements a recursive
method to moments of any desired order.
The proper formulae for the mean, variance and skewness of the normal inverse Gaussian distribution can be found in Paolella, Marc S. (2007), Chapter 9, p325.
Value
nigMean gives the mean of the normal inverse Gaussian distribution,
nigVar the variance, nigSkew the skewness,
nigKurt the kurtosis and nigMode the mode.
Note that the kurtosis is the standardised fourth cumulant or what is sometimes called the kurtosis excess. (See http://mathworld.wolfram.com/Kurtosis.html for a discussion.)
The parameterization of the normal inverse Gaussian distribution used
for this and other components of the GeneralizedHyperbolic
package is the (\alpha, \beta) one. See
hyperbChangePars to transfer between parameterizations.
Author(s)
David Scott d.scott@auckland.ac.nz, Christine Yang Dong
References
Paolella, Marc S. (2007) Intermediate Probability: A Computational Approach, Chichester: Wiley
See Also
dnig, hyperbChangePars,
besselK, ghypMom, ghypMean,
ghypVar, ghypSkew, ghypKurt
Examples
param <- c(2, 2, 2, 1)
nigMean(param = param)
nigVar(param = param)
nigSkew(param = param)
nigKurt(param = param)
nigMode(param = param)
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