m1df: Generic Function for the Computation of Clipped First Moments
In distrEx: Extensions of Package 'distr'
m1df R Documentation
Generic Function for the Computation of Clipped First Moments
Description
Generic function for the computation of clipped first moments.
The moments are clipped at upper.
Usage
m1df(object, upper, ...)
## S4 method for signature 'AbscontDistribution'
m1df(object, upper,
lowerTruncQuantile = getdistrExOption("m1dfLowerTruncQuantile"),
rel.tol = getdistrExOption("m1dfRelativeTolerance"), ...)
Arguments
object
object of class "Distribution"
upper
clipping bound
rel.tol
relative tolerance for distrExIntegrate.
lowerTruncQuantile
lower quantile for quantile based integration range.
...
additional arguments to E
Details
The precision of the computations can be controlled via
certain global options; cf. distrExOptions.
Value
The first moment of object clipped at upper is computed.
Methods
- object = "UnivariateDistribution":
-
uses call E(object, upp=upper, ...).
- object = "AbscontDistribution":
clipped first moment
for absolutely continuous univariate distributions which is
computed using integrate.
- object = "LatticeDistribution":
clipped first moment
for discrete univariate distributions which is computed
using support and sum.
- object = "AffLinDistribution":
clipped first moment
for affine linear distributions which is computed on basis of
slot X0.
- object = "Binom":
clipped first moment
for Binomial distributions which is computed using pbinom.
- object = "Pois":
clipped first moment
for Poisson distributions which is computed using ppois.
- object = "Norm":
clipped first moment
for normal distributions which is computed using dnorm and pnorm.
- object = "Exp":
clipped first moment
for exponential distributions which is computed using pexp.
- object = "Chisq":
clipped first moment
for \chi^2 distributions which is computed using pchisq.
Author(s)
Matthias Kohl Matthias.Kohl@stamats.de
See Also
distrExIntegrate, m2df, E
Examples
# standard normal distribution
N1 <- Norm()
m1df(N1, 0)
# Poisson distribution
P1 <- Pois(lambda=2)
m1df(P1, 3)
m1df(P1, 3, fun = function(x)sin(x))
# absolutely continuous distribution
D1 <- Norm() + Exp() # convolution
m1df(D1, 2)
m1df(D1, Inf)
E(D1)
distrEx documentation built on Sept. 11, 2024, 9:14 p.m.
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| m1df | R Documentation |
Generic Function for the Computation of Clipped First Moments
Description
Generic function for the computation of clipped first moments.
The moments are clipped at upper.
Usage
m1df(object, upper, ...)
## S4 method for signature 'AbscontDistribution'
m1df(object, upper,
lowerTruncQuantile = getdistrExOption("m1dfLowerTruncQuantile"),
rel.tol = getdistrExOption("m1dfRelativeTolerance"), ...)
Arguments
object |
object of class |
upper |
clipping bound |
rel.tol |
relative tolerance for |
lowerTruncQuantile |
lower quantile for quantile based integration range. |
... |
additional arguments to |
Details
The precision of the computations can be controlled via
certain global options; cf. distrExOptions.
Value
The first moment of object clipped at upper is computed.
Methods
- object = "UnivariateDistribution":
-
uses call
E(object, upp=upper, ...). - object = "AbscontDistribution":
clipped first moment for absolutely continuous univariate distributions which is computed using
integrate.- object = "LatticeDistribution":
clipped first moment for discrete univariate distributions which is computed using
supportandsum.- object = "AffLinDistribution":
clipped first moment for affine linear distributions which is computed on basis of slot
X0.- object = "Binom":
clipped first moment for Binomial distributions which is computed using
pbinom.- object = "Pois":
clipped first moment for Poisson distributions which is computed using
ppois.- object = "Norm":
clipped first moment for normal distributions which is computed using
dnormandpnorm.- object = "Exp":
clipped first moment for exponential distributions which is computed using
pexp.- object = "Chisq":
clipped first moment for
\chi^2distributions which is computed usingpchisq.
Author(s)
Matthias Kohl Matthias.Kohl@stamats.de
See Also
distrExIntegrate, m2df, E
Examples
# standard normal distribution
N1 <- Norm()
m1df(N1, 0)
# Poisson distribution
P1 <- Pois(lambda=2)
m1df(P1, 3)
m1df(P1, 3, fun = function(x)sin(x))
# absolutely continuous distribution
D1 <- Norm() + Exp() # convolution
m1df(D1, 2)
m1df(D1, Inf)
E(D1)
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