getInfStand: Generic Function for the Computation of the Standardizing...
In ROptEstOld: Optimally Robust Estimation - Old Version
Description
Usage
Arguments
Value
Methods
Author(s)
References
See Also
Description
Generic function for the computation of the standardizing matrix which
takes care of the Fisher consistency of the corresponding IC. This function
is rarely called directly. It is used to compute optimally robust ICs.
Usage
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getInfStand(L2deriv, neighbor, ...)
## S4 method for signature 'UnivariateDistribution,ContNeighborhood'
getInfStand(L2deriv, neighbor, clip, cent, trafo)
## S4 method for signature 'UnivariateDistribution,TotalVarNeighborhood'
getInfStand(L2deriv, neighbor, clip, cent, trafo)
## S4 method for signature 'RealRandVariable,ContNeighborhood'
getInfStand(L2deriv, neighbor, Distr, A.comp, stand, clip, cent, trafo)
Arguments
L2deriv
L2-derivative of some L2-differentiable family
of probability measures.
neighbor
object of class "Neighborhood"
...
additional parameters
clip
optimal clipping bound.
cent
optimal centering constant.
stand
standardizing matrix.
Distr
object of class "Distribution".
trafo
matrix: transformation of the parameter.
A.comp
matrix: indication which components of the standardizing
matrix have to be computed.
Value
The standardizing matrix is computed.
Methods
- L2deriv = "UnivariateDistribution", neighbor = "ContNeighborhood"
-
computes standardizing matrix.
- L2deriv = "UnivariateDistribution", neighbor = "TotalVarNeighborhood"
-
computes standardizing matrix.
- L2deriv = "RealRandVariable", neighbor = "ContNeighborhood"
-
computes standardizing matrix.
Author(s)
Matthias Kohl Matthias.Kohl@stamats.de
References
Rieder, H. (1994) Robust Asymptotic Statistics. New York: Springer.
Kohl, M. (2005) Numerical Contributions to the Asymptotic Theory of Robustness.
Bayreuth: Dissertation.
See Also
ContIC-class, TotalVarIC-class
ROptEstOld documentation built on May 2, 2019, 12:51 p.m.
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Description Usage Arguments Value Methods Author(s) References See Also
Description
Generic function for the computation of the standardizing matrix which takes care of the Fisher consistency of the corresponding IC. This function is rarely called directly. It is used to compute optimally robust ICs.
Usage
1 2 3 4 5 6 7 8 9 10 | getInfStand(L2deriv, neighbor, ...)
## S4 method for signature 'UnivariateDistribution,ContNeighborhood'
getInfStand(L2deriv, neighbor, clip, cent, trafo)
## S4 method for signature 'UnivariateDistribution,TotalVarNeighborhood'
getInfStand(L2deriv, neighbor, clip, cent, trafo)
## S4 method for signature 'RealRandVariable,ContNeighborhood'
getInfStand(L2deriv, neighbor, Distr, A.comp, stand, clip, cent, trafo)
|
Arguments
L2deriv |
L2-derivative of some L2-differentiable family of probability measures. |
neighbor |
object of class |
... |
additional parameters |
clip |
optimal clipping bound. |
cent |
optimal centering constant. |
stand |
standardizing matrix. |
Distr |
object of class |
trafo |
matrix: transformation of the parameter. |
A.comp |
matrix: indication which components of the standardizing matrix have to be computed. |
Value
The standardizing matrix is computed.
Methods
- L2deriv = "UnivariateDistribution", neighbor = "ContNeighborhood"
-
computes standardizing matrix.
- L2deriv = "UnivariateDistribution", neighbor = "TotalVarNeighborhood"
-
computes standardizing matrix.
- L2deriv = "RealRandVariable", neighbor = "ContNeighborhood"
-
computes standardizing matrix.
Author(s)
Matthias Kohl Matthias.Kohl@stamats.de
References
Rieder, H. (1994) Robust Asymptotic Statistics. New York: Springer.
Kohl, M. (2005) Numerical Contributions to the Asymptotic Theory of Robustness. Bayreuth: Dissertation.
See Also
ContIC-class, TotalVarIC-class
R Package Documentation
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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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