gapDer: Gap-Segment derivative
In prospectr: Miscellaneous Functions for Processing and Sample Selection of Spectroscopic Data
gapDer R Documentation
Gap-Segment derivative
Description
Gap-Segment derivatives of a data matrix or vector
Usage
gapDer(X, m = 1, w = 1, s = 1, delta.wav)
Arguments
X
a numeric matrix or vector' to transform (optionally a data frame
that can be coerced to a numerical matrix).
m
an integer indicating the order of the derivative, larger than 1
(default is 1). Note that this function allows for high order derivatives
(e.g. m = 6).
w
an integer indicating the gap size (must be odd and >=1), i.e. the spacing
between points over which the derivative is computed.
s
an integer indicating the segment size (must be odd and >=1), i.e.
the range over which the points are averaged (default = 1, i.e. no
smoothing corresponding to Norris-Gap Derivative).
delta.wav
the sampling interval (or band spacing).
Details
In this type of derivatives, the gap size denotes the length of the x
interval that separates the two segments that are averaged. A detailed
explanation of gap segment derivatives can be found in Hopkins (2001).
The sampling interval specified with the delta.wav argument is used for
scaling and get numerically correct derivatives.
The convolution function is written in C++/Rcpp for faster computations.
Value
a matrix or vector with the filtered signal(s)
Author(s)
Antoine Stevens and Leonardo Ramirez-Lopez
References
Hopkins, D. W. (2001). What is a Norris derivative?. NIR news, 12(3), 3-5.
See Also
savitzkyGolay, movav,
binning, continuumRemoval
Examples
data(NIRsoil)
opar <- par(no.readonly = TRUE)
par(mfrow = c(2, 2), mar = c(4, 4, 2, 2))
# plot of the 10 first spectra
matplot(as.numeric(colnames(NIRsoil$spc)),
t(NIRsoil$spc[1:10, ]),
type = "l",
xlab = "",
ylab = "Absorbance"
)
mtext("Raw spectra")
der <- gapDer(NIRsoil$spc, m = 1, w = 1, s = 1, delta.wav = 2)
matplot(as.numeric(colnames(der)),
t(der[1:10, ]),
type = "l",
xlab = "Wavelength /nm",
ylab = "gap derivative"
)
mtext("1st derivative spectra")
der <- gapDer(NIRsoil$spc, m = 1, w = 11, s = 1, delta.wav = 2)
matplot(as.numeric(colnames(der)), t(der[1:10, ]),
type = "l",
xlab = "Wavelength /nm",
ylab = "gap derivative"
)
mtext("1st derivative spectra with a window size = 11 nm")
der <- gapDer(NIRsoil$spc, m = 1, w = 11, s = 5, delta.wav = 2)
matplot(as.numeric(colnames(der)), t(der[1:10, ]),
type = "l",
xlab = "Wavelength /nm",
ylab = "gap derivative"
)
mtext("1st derivative spectra with: window size: 11 nm, smoothing: 5 nm")
par(opar)
prospectr documentation built on June 22, 2024, 11:08 a.m.
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| gapDer | R Documentation |
Gap-Segment derivative
Description
Gap-Segment derivatives of a data matrix or vector
Usage
gapDer(X, m = 1, w = 1, s = 1, delta.wav)
Arguments
X |
a numeric matrix or vector' to transform (optionally a data frame that can be coerced to a numerical matrix). |
m |
an integer indicating the order of the derivative, larger than 1 (default is 1). Note that this function allows for high order derivatives (e.g. m = 6). |
w |
an integer indicating the gap size (must be odd and >=1), i.e. the spacing between points over which the derivative is computed. |
s |
an integer indicating the segment size (must be odd and >=1), i.e. the range over which the points are averaged (default = 1, i.e. no smoothing corresponding to Norris-Gap Derivative). |
delta.wav |
the sampling interval (or band spacing). |
Details
In this type of derivatives, the gap size denotes the length of the x interval that separates the two segments that are averaged. A detailed explanation of gap segment derivatives can be found in Hopkins (2001).
The sampling interval specified with the delta.wav argument is used for
scaling and get numerically correct derivatives.
The convolution function is written in C++/Rcpp for faster computations.
Value
a matrix or vector with the filtered signal(s)
Author(s)
Antoine Stevens and Leonardo Ramirez-Lopez
References
Hopkins, D. W. (2001). What is a Norris derivative?. NIR news, 12(3), 3-5.
See Also
savitzkyGolay, movav,
binning, continuumRemoval
Examples
data(NIRsoil)
opar <- par(no.readonly = TRUE)
par(mfrow = c(2, 2), mar = c(4, 4, 2, 2))
# plot of the 10 first spectra
matplot(as.numeric(colnames(NIRsoil$spc)),
t(NIRsoil$spc[1:10, ]),
type = "l",
xlab = "",
ylab = "Absorbance"
)
mtext("Raw spectra")
der <- gapDer(NIRsoil$spc, m = 1, w = 1, s = 1, delta.wav = 2)
matplot(as.numeric(colnames(der)),
t(der[1:10, ]),
type = "l",
xlab = "Wavelength /nm",
ylab = "gap derivative"
)
mtext("1st derivative spectra")
der <- gapDer(NIRsoil$spc, m = 1, w = 11, s = 1, delta.wav = 2)
matplot(as.numeric(colnames(der)), t(der[1:10, ]),
type = "l",
xlab = "Wavelength /nm",
ylab = "gap derivative"
)
mtext("1st derivative spectra with a window size = 11 nm")
der <- gapDer(NIRsoil$spc, m = 1, w = 11, s = 5, delta.wav = 2)
matplot(as.numeric(colnames(der)), t(der[1:10, ]),
type = "l",
xlab = "Wavelength /nm",
ylab = "gap derivative"
)
mtext("1st derivative spectra with: window size: 11 nm, smoothing: 5 nm")
par(opar)
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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