getRidge: Identify ridges based on the local maximum matrix
In zmzhang/baselineWavelet: baseline correction by wavelet and Whittaker Smooth algorithms
Description
Usage
Arguments
Value
Author(s)
References
See Also
Examples
Description
Identify ridges by connecting the local maximum of 2-D CWT coefficients from the coarse scale to detail scale. The local maximum matrix is returned from getLocalMaximumCWT
Usage
1
Arguments
localMax
The local maximum matrix is returned from getLocalMaximumCWT with 1 represents maximum, others are 0.
iInit
The start column to search ridge. By default, it starts from the coarsest scale level.
step
Search step. -1 by default, which means searching from coarse scale to detail scale column by column.
iFinal
The final column index of search ridge.
minWinSize
The minimum slide window size used.
gapTh
The gap allowed during searching for ridge. 3 by default.
skip
The column to be skipped during search.
Value
Return a list of ridge. As some ridges may end at the scale larger than 1, in order to keep the uniqueness of the ridge names, we combined the smallest scale of the ridge and m/z index of the peak at that scale together to name the ridges. For example the ridge name "1\_653" means the peak ridge ends at the CWT scale 1 with m/z index 653 at scale 1.
Author(s)
Pan Du, Simon Lin
References
Du, P., Kibbe, W.A. and Lin, S.M. (2006) Improved peak detection in mass spectrum by incorporating continuous wavelet transform-based pattern matching, Bioinformatics, 22, 2059-2065.
See Also
getLocalMaximumCWT, identifyMajorPeaks
Examples
1
2
3
4
5
6
7
data(exampleMS)
scales <- seq(1, 64, 3)
wCoefs <- cwt(exampleMS[5000:11000], scales=scales, wavelet='mexh')
localMax <- getLocalMaximumCWT(wCoefs)
ridgeList <- getRidge(localMax)
plotRidgeList(ridgeList)
zmzhang/baselineWavelet documentation built on Dec. 26, 2019, 8:49 a.m.
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Description Usage Arguments Value Author(s) References See Also Examples
Description
Identify ridges by connecting the local maximum of 2-D CWT coefficients from the coarse scale to detail scale. The local maximum matrix is returned from getLocalMaximumCWT
Usage
1 |
Arguments
localMax |
The local maximum matrix is returned from |
iInit |
The start column to search ridge. By default, it starts from the coarsest scale level. |
step |
Search step. -1 by default, which means searching from coarse scale to detail scale column by column. |
iFinal |
The final column index of search ridge. |
minWinSize |
The minimum slide window size used. |
gapTh |
The gap allowed during searching for ridge. 3 by default. |
skip |
The column to be skipped during search. |
Value
Return a list of ridge. As some ridges may end at the scale larger than 1, in order to keep the uniqueness of the ridge names, we combined the smallest scale of the ridge and m/z index of the peak at that scale together to name the ridges. For example the ridge name "1\_653" means the peak ridge ends at the CWT scale 1 with m/z index 653 at scale 1.
Author(s)
Pan Du, Simon Lin
References
Du, P., Kibbe, W.A. and Lin, S.M. (2006) Improved peak detection in mass spectrum by incorporating continuous wavelet transform-based pattern matching, Bioinformatics, 22, 2059-2065.
See Also
getLocalMaximumCWT, identifyMajorPeaks
Examples
1 2 3 4 5 6 7 | data(exampleMS)
scales <- seq(1, 64, 3)
wCoefs <- cwt(exampleMS[5000:11000], scales=scales, wavelet='mexh')
localMax <- getLocalMaximumCWT(wCoefs)
ridgeList <- getRidge(localMax)
plotRidgeList(ridgeList)
|
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