convolve.im: Convolution of Pixel Images
In spatstat.geom: Geometrical Functionality of the 'spatstat' Family
convolve.im R Documentation
Convolution of Pixel Images
Description
Computes the convolution of two pixel images.
Usage
convolve.im(X, Y=X, ..., reflectX=FALSE, reflectY=FALSE)
Arguments
X
A pixel image (object of class "im".
Y
Optional. Another pixel image.
...
Ignored.
reflectX, reflectY
Logical values specifying whether the images X and Y
(respectively) should be reflected in the origin before computing
the convolution.
Details
The convolution of two pixel images X and Y in the plane
is the function C(v) defined for each vector v as
C(v) = \int X(u)Y(v-u)\, {\rm d}u
where the integral is
over all spatial locations u, and where X(u) and
Y(u) denote the pixel values of X and Y respectively
at location u.
This command computes a discretised approximation to
the convolution, using the Fast Fourier Transform.
The return value is
another pixel image (object of class "im") whose greyscale values
are values of the convolution.
If reflectX = TRUE then the pixel image X is reflected
in the origin (see reflect)
before the convolution is computed, so that
convolve.im(X,Y,reflectX=TRUE) is mathematically
equivalent to convolve.im(reflect(X), Y). (These two commands
are not exactly equivalent, because the reflection is performed
in the Fourier domain in the first command, and reflection is
performed in the spatial domain in the second command).
Similarly if reflectY = TRUE then the pixel image Y is reflected
in the origin before the convolution is computed, so that
convolve.im(X,Y,reflectY=TRUE) is mathematically
equivalent to convolve.im(X, reflect(Y)).
Value
A pixel image (an object of class "im") representing the
convolution of X and Y.
Author(s)
\adrian
and \rolf
See Also
imcov,
reflect
Examples
if(interactive()) {
X <- as.im(letterR)
Y <- as.im(square(1))
} else {
## coarser image for testing
X <- as.im(letterR, dimyx=32)
Y <- as.im(square(1), dimyx=32)
}
plot(convolve.im(X, Y))
plot(convolve.im(X, Y, reflectX=TRUE))
plot(convolve.im(X))
spatstat.geom documentation built on Sept. 18, 2024, 9:08 a.m.
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| convolve.im | R Documentation |
Convolution of Pixel Images
Description
Computes the convolution of two pixel images.
Usage
convolve.im(X, Y=X, ..., reflectX=FALSE, reflectY=FALSE)
Arguments
X |
A pixel image (object of class |
Y |
Optional. Another pixel image. |
... |
Ignored. |
reflectX, reflectY |
Logical values specifying whether the images |
Details
The convolution of two pixel images X and Y in the plane
is the function C(v) defined for each vector v as
C(v) = \int X(u)Y(v-u)\, {\rm d}u
where the integral is
over all spatial locations u, and where X(u) and
Y(u) denote the pixel values of X and Y respectively
at location u.
This command computes a discretised approximation to
the convolution, using the Fast Fourier Transform.
The return value is
another pixel image (object of class "im") whose greyscale values
are values of the convolution.
If reflectX = TRUE then the pixel image X is reflected
in the origin (see reflect)
before the convolution is computed, so that
convolve.im(X,Y,reflectX=TRUE) is mathematically
equivalent to convolve.im(reflect(X), Y). (These two commands
are not exactly equivalent, because the reflection is performed
in the Fourier domain in the first command, and reflection is
performed in the spatial domain in the second command).
Similarly if reflectY = TRUE then the pixel image Y is reflected
in the origin before the convolution is computed, so that
convolve.im(X,Y,reflectY=TRUE) is mathematically
equivalent to convolve.im(X, reflect(Y)).
Value
A pixel image (an object of class "im") representing the
convolution of X and Y.
Author(s)
\adrianand \rolf
See Also
imcov,
reflect
Examples
if(interactive()) {
X <- as.im(letterR)
Y <- as.im(square(1))
} else {
## coarser image for testing
X <- as.im(letterR, dimyx=32)
Y <- as.im(square(1), dimyx=32)
}
plot(convolve.im(X, Y))
plot(convolve.im(X, Y, reflectX=TRUE))
plot(convolve.im(X))
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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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