asysm: Trend estimation with asymmetric least squares
In ptw: Parametric Time Warping
Description
Usage
Arguments
Details
Value
Author(s)
References
Examples
Description
Estimates a trend based on asymmetric least squares. In
this case used to estimate the baseline of a given spectrum.
Usage
1
asysm(y, lambda = 1e+07, p = 0.001, eps = 1e-8, maxit = 25)
Arguments
y
data: either a vector or a data matrix containing spectra as rows
lambda
smoothing parameter (generally 1e5 - 1e8)
p
asymmetry parameter
eps
numerical precision for convergence
maxit
max number of iterations. If no convergence is reached, a
warning is issued.
Details
Asymmetric least squares (not to be confused with alternating
least squares) assigns different weights to the data points that are
above and below an iteratively estimated trendline, respectively. In
this case, the asymmetry parameter p (0 <= p <= 1) is the weight for
points above the trendline, whereas 1-p is the weight for points below
it. Naturally, p should be small for estimating baselines. The
parameter lambda controls the amount of smoothing: the larger it is,
the smoother the trendline will be.
Value
An estimated baseline
Author(s)
Paul Eilers, Jan Gerretzen
References
Eilers, P.H.C.
Eilers, P.H.C. (2004) "Parametric Time Warping", Analytical Chemistry, 76 (2), 404 – 411.
Boelens, H.F.M., Eilers, P.H.C., Hankemeier, T. (2005) "Sign constraints improve the detection of differences between complex spectral data sets: LC-IR as an example", Analytical Chemistry, 77, 7998 – 8007.
Examples
1
2
3
Example output
ptw documentation built on Jan. 19, 2022, 5:07 p.m.
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Description Usage Arguments Details Value Author(s) References Examples
Description
Estimates a trend based on asymmetric least squares. In this case used to estimate the baseline of a given spectrum.
Usage
1 | asysm(y, lambda = 1e+07, p = 0.001, eps = 1e-8, maxit = 25)
|
Arguments
y |
data: either a vector or a data matrix containing spectra as rows |
lambda |
smoothing parameter (generally 1e5 - 1e8) |
p |
asymmetry parameter |
eps |
numerical precision for convergence |
maxit |
max number of iterations. If no convergence is reached, a warning is issued. |
Details
Asymmetric least squares (not to be confused with alternating least squares) assigns different weights to the data points that are above and below an iteratively estimated trendline, respectively. In this case, the asymmetry parameter p (0 <= p <= 1) is the weight for points above the trendline, whereas 1-p is the weight for points below it. Naturally, p should be small for estimating baselines. The parameter lambda controls the amount of smoothing: the larger it is, the smoother the trendline will be.
Value
An estimated baseline
Author(s)
Paul Eilers, Jan Gerretzen
References
Eilers, P.H.C. Eilers, P.H.C. (2004) "Parametric Time Warping", Analytical Chemistry, 76 (2), 404 – 411.
Boelens, H.F.M., Eilers, P.H.C., Hankemeier, T. (2005) "Sign constraints improve the detection of differences between complex spectral data sets: LC-IR as an example", Analytical Chemistry, 77, 7998 – 8007.
Examples
1 2 3 |
Example output
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