WaveletCV | R Documentation |
Two-fold wavelet shrinkage cross-validation (there is a faster C based
version CWCV
.)
WaveletCV(ynoise, x = 1:length(ynoise), filter.number = 10, family =
"DaubLeAsymm", thresh.type = "soft", tol = 0.01, verbose = 0,
plot.it = TRUE, ll=3)
ynoise |
A vector of dyadic (power of two) length that contains the noisy data that you wish to apply wavelet shrinkage by cross-validation to. |
x |
This function is capable of producing informative plots.
It can be useful to supply the x values corresponding to the
|
filter.number |
This selects the smoothness of wavelet that you want to perform wavelet shrinkage by cross-validation. |
family |
specifies the family of wavelets that you want to use. The options are "DaubExPhase" and "DaubLeAsymm". |
thresh.type |
this option specifies the thresholding type which can be "hard" or "soft". |
tol |
this specifies the convergence tolerance for the cross-validation optimization routine (a golden section search). |
verbose |
Controls the printing of "informative" messages whilst the computations progress. Such messages are generally annoying so it is turned off by default. |
plot.it |
If this is TRUE then plots of the universal threshold (used to obtain an upper bound on the cross-validation threshold) reconstruction and the resulting cross-validation estimate are produced. |
ll |
The primary resolution that you wish to assume. No wavelet coefficients that are on coarser scales than ll will be thresholded. |
Note: a faster C based implementation of this function called
CWCV
is available.
It takes the same arguments (although it has one extra minor argument) and returns the same values.
Compute the two-fold cross-validated wavelet shrunk estimate given the noisy data ynoise according to the description given in Nason, 1996.
You must specify a primary resolution given by ll
. This must be specified individually on each data set and can itself be estimated using cross-validation (although I haven't written the code to do this).
Note. The two-fold cross-validation method performs very badly if the input data is correlated. In this case I would advise using other methods.
A list with the following components
x |
This is just the x that was input. It gets passed through more or less for convenience for the user. |
ynoise |
A copy of the input ynoise noisy data. |
xvwr |
The cross-validated wavelet shrunk estimate. |
yuvtwr |
The universal thresholded version (note this is merely a starting point for the cross-validation algorithm. It should not be taken seriously as an estimate. In particular its estimate of variance is likely to be inflated.) |
xvthresh |
The cross-validated threshold |
uvthresh |
The universal threshold (again, don't take this value too seriously. You might get better performance using the threshold function directly with specialist options. |
xvdof |
The number of non-zero coefficients in the cross-validated shrunk wavelet object (which is not returned). |
uvdof |
The number of non-zero coefficients in the universal threshold shrunk wavelet object (which also is not returned) |
xkeep |
always returns NULL! |
fkeep |
always returns NULL! |
G P Nason
CWCV
,Crsswav
,rsswav
,threshold.wd
#
# This function is best used via the policy="cv" option in
# the threshold.wd function.
# See examples there.
#
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