aws.irreg: local constant AWS for irregular (1D/2D) design
In WIAS-BERLIN/aws: Adaptive Weights Smoothing
aws.irreg R Documentation
local constant AWS for irregular (1D/2D) design
Description
The function implements the propagation separation approach to
nonparametric smoothing (formerly introduced as Adaptive weights smoothing)
for varying coefficient Gaussian models on a 1D or 2D irregulat design.
The function allows for a paramertic (polynomial) mean-variance dependence.
Usage
aws.irreg(y, x, hmax = NULL, aws=TRUE, memory=FALSE, varmodel = "Constant",
lkern = "Triangle", aggkern = "Uniform", sigma2 = NULL, nbins = 100,
hpre = NULL, henv = NULL, ladjust =1, varprop = 0.1, graph = FALSE)
Arguments
y
The observed response vector (length n)
x
Design matrix, dimension n x d, d %in% 1:2
hmax
hmax specifies the maximal bandwidth. Unit is binwidth in the first dimension.
aws
logical: if TRUE structural adaptation (AWS) is used.
memory
logical: if TRUE stagewise aggregation is used as an additional
adaptation scheme.
varmodel
determines the model that relates variance to mean. Either
"Constant", "Linear" or "Quadratic".
lkern
character: location kernel, either "Triangle", "Plateau", "Quadratic", "Cubic" or "Gaussian"
aggkern
character: kernel used in stagewise aggregation, either "Triangle" or "Uniform"
sigma2
sigma2 allows to specify the variance in case of varmodel="Constant", estimated if not given.
nbins
numer of bins, can be NULL, a positive integer or a vector of positive integers (length d)
hpre
smoothing bandwidth for initial variance estimate
henv
radius of balls around each observed design point where
estimates will be calculated
ladjust
factor to increase the default value of lambda
varprop
exclude the largest 100*varprop% squared residuals when estimating the error variance
graph
If graph=TRUE intermediate results are illustrated after each iteration step. Defaults to graph=FALSE.
Details
Data are first binned (1D/2D), then aws is performed on all datapoints within
distance <= henv of nonempty bins.
Value
returns anobject of class aws with slots
y = "numeric"
y
dy = "numeric"
dim(y)
x = "numeric"
x
ni = "integer"
number of observations per bin
mask = "logical"
bins where parameters have been estimated
theta = "numeric"
Estimates of regression function, length: length(y)
mae = "numeric"
numeric(0)
var = "numeric"
approx. variance of the estimates of the regression function. Please note that this does not reflect variability due to randomness of weights.
xmin = "numeric"
vector of minimal x-values (bins)
xmax = "numeric"
vector of maximal x-values (bins)
wghts = "numeric"
relative binwidths
degree = "integer"
0
hmax = "numeric"
effective hmax
sigma2 = "numeric"
provided or estimated error variance
scorr = "numeric"
0
family = "character"
"Gaussian"
shape = "numeric"
numeric(0)
lkern = "integer"
integer code for lkern,
1="Plateau", 2="Triangle", 3="Quadratic", 4="Cubic", 5="Gaussian"
lambda = "numeric"
effective value of lambda
ladjust = "numeric"
effective value of ladjust
aws = "logical"
aws
memory = "logical"
memory
homogen = "logical"
FALSE
earlystop = "logical"
FALSE
varmodel = "character"
varmodel
vcoef = "numeric"
estimated coefficients in variance model
call = "function"
the arguments of the call to aws
Author(s)
Joerg Polzehl, polzehl@wias-berlin.de
References
J. Polzehl, V. Spokoiny, in V. Chen, C.; Haerdle, W. and Unwin, A. (ed.)
Handbook of Data Visualization Structural adaptive smoothing by propagation-separation methods.
Springer-Verlag, 2008, 471-492. DOI:10.1007/978-3-540-33037-0_19.
See Also
See also lpaws, link{awsdata}, lpaws
Examples
require(aws)
# 1D local constant smoothing
## Not run: demo(irreg_ex1)
# 2D local constant smoothing
## Not run: demo(irreg_ex2)
WIAS-BERLIN/aws documentation built on Sept. 10, 2023, 6:20 p.m.
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| aws.irreg | R Documentation |
local constant AWS for irregular (1D/2D) design
Description
The function implements the propagation separation approach to nonparametric smoothing (formerly introduced as Adaptive weights smoothing) for varying coefficient Gaussian models on a 1D or 2D irregulat design. The function allows for a paramertic (polynomial) mean-variance dependence.
Usage
aws.irreg(y, x, hmax = NULL, aws=TRUE, memory=FALSE, varmodel = "Constant",
lkern = "Triangle", aggkern = "Uniform", sigma2 = NULL, nbins = 100,
hpre = NULL, henv = NULL, ladjust =1, varprop = 0.1, graph = FALSE)
Arguments
y |
The observed response vector (length n) |
x |
Design matrix, dimension n x d, |
hmax |
|
aws |
logical: if TRUE structural adaptation (AWS) is used. |
memory |
logical: if TRUE stagewise aggregation is used as an additional adaptation scheme. |
varmodel |
determines the model that relates variance to mean. Either "Constant", "Linear" or "Quadratic". |
lkern |
character: location kernel, either "Triangle", "Plateau", "Quadratic", "Cubic" or "Gaussian" |
aggkern |
character: kernel used in stagewise aggregation, either "Triangle" or "Uniform" |
sigma2 |
|
nbins |
numer of bins, can be NULL, a positive integer or a vector of positive integers (length d) |
hpre |
smoothing bandwidth for initial variance estimate |
henv |
radius of balls around each observed design point where estimates will be calculated |
ladjust |
factor to increase the default value of lambda |
varprop |
exclude the largest 100*varprop% squared residuals when estimating the error variance |
graph |
If |
Details
Data are first binned (1D/2D), then aws is performed on all datapoints within distance <= henv of nonempty bins.
Value
returns anobject of class aws with slots
y = "numeric" |
y |
dy = "numeric" |
dim(y) |
x = "numeric" |
x |
ni = "integer" |
number of observations per bin |
mask = "logical" |
bins where parameters have been estimated |
theta = "numeric" |
Estimates of regression function, |
mae = "numeric" |
numeric(0) |
var = "numeric" |
approx. variance of the estimates of the regression function. Please note that this does not reflect variability due to randomness of weights. |
xmin = "numeric" |
vector of minimal x-values (bins) |
xmax = "numeric" |
vector of maximal x-values (bins) |
wghts = "numeric" |
relative binwidths |
degree = "integer" |
0 |
hmax = "numeric" |
effective hmax |
sigma2 = "numeric" |
provided or estimated error variance |
scorr = "numeric" |
0 |
family = "character" |
"Gaussian" |
shape = "numeric" |
numeric(0) |
lkern = "integer" |
integer code for lkern, 1="Plateau", 2="Triangle", 3="Quadratic", 4="Cubic", 5="Gaussian" |
lambda = "numeric" |
effective value of lambda |
ladjust = "numeric" |
effective value of ladjust |
aws = "logical" |
aws |
memory = "logical" |
memory |
homogen = "logical" |
FALSE |
earlystop = "logical" |
FALSE |
varmodel = "character" |
varmodel |
vcoef = "numeric" |
estimated coefficients in variance model |
call = "function" |
the arguments of the call to |
Author(s)
Joerg Polzehl, polzehl@wias-berlin.de
References
J. Polzehl, V. Spokoiny, in V. Chen, C.; Haerdle, W. and Unwin, A. (ed.) Handbook of Data Visualization Structural adaptive smoothing by propagation-separation methods. Springer-Verlag, 2008, 471-492. DOI:10.1007/978-3-540-33037-0_19.
See Also
See also lpaws, link{awsdata}, lpaws
Examples
require(aws)
# 1D local constant smoothing
## Not run: demo(irreg_ex1)
# 2D local constant smoothing
## Not run: demo(irreg_ex2)
R Package Documentation
Browse R Packages
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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