| manual.thresh {waveslim} | R Documentation |
Wavelet Shrinkage via Thresholding
Description
Perform wavelet shrinkage using data-analytic, hybrid SURE, manual, SURE, or universal thresholding.
Usage
da.thresh(wc, alpha = .05, max.level = 4, verbose = FALSE, return.thresh = FALSE)
hybrid.thresh(wc, max.level = 4, verbose = FALSE, seed = 0)
manual.thresh(wc, max.level = 4, value, hard = TRUE)
sure.thresh(wc, max.level = 4, hard = TRUE)
universal.thresh(wc, max.level = 4, hard = TRUE)
universal.thresh.modwt(wc, max.level = 4, hard = TRUE)
Arguments
wc |
wavelet coefficients |
max.level |
maximum level of coefficients to be affected by threshold |
value |
threshold value (only utilized in |
hard |
Boolean value, if |
alpha |
level of the hypothesis tests |
verbose |
if |
seed |
sets random seed (only utilized in |
return.thresh |
if |
Details
An extensive amount of literature has been written on wavelet shrinkage. The functions here represent the most basic approaches to the problem of nonparametric function estimation. See the references for further information.
Value
The default output is a list structure, the same length as was input, containing only those wavelet coefficients surviving the threshold.
Author(s)
B. Whitcher (some code taken from R. Todd Ogden)
References
Gencay, R., F. Selcuk and B. Whitcher (2001) An Introduction to Wavelets and Other Filtering Methods in Finance and Economics, Academic Press.
Ogden, R. T. (1996) Essential Wavelets for Statistical Applications and Data Analysis, Birkhauser.
Percival, D. B. and A. T. Walden (2000) Wavelet Methods for Time Series Analysis, Cambridge University Press.
Vidakovic, B. (1999) Statistical Modeling by Wavelets, John Wiley and Sons.