mra.3d: Three Dimensional Multiresolution Analysis
In waveslim: Basic Wavelet Routines for One-, Two-, and Three-Dimensional Signal Processing
mra.3d R Documentation
Three Dimensional Multiresolution Analysis
Description
This function performs a level J additive decomposition of the input
array using the pyramid algorithm (Mallat 1989).
Usage
mra.3d(x, wf = "la8", J = 4, method = "modwt", boundary = "periodic")
Arguments
x
A three-dimensional array containing the data be to decomposed.
This must be have dyadic length in all three dimensions (but not necessarily
the same) for method="dwt".
wf
Name of the wavelet filter to use in the decomposition. By
default this is set to "la8", the Daubechies orthonormal compactly
supported wavelet of length L=8 least asymmetric family.
J
Specifies the depth of the decomposition. This must be a number
less than or equal to \log(\mbox{length}(x),2).
method
Either "dwt" or "modwt".
boundary
Character string specifying the boundary condition. If
boundary=="periodic" the default and only method implemented, then
the matrix you decompose is assumed to be periodic on its defined interval.
Details
This code implements a three-dimensional multiresolution analysis by
performing the one-dimensional pyramid algorithm (Mallat 1989) on each
dimension of the input array. Either the DWT or MODWT may be used to
compute the multiresolution analysis, which is an additive decomposition of
the original array.
Value
List structure containing the filter triplets associated with the
multiresolution analysis.
Author(s)
B. Whitcher
References
Mallat, S. G. (1989) A theory for multiresolution signal
decomposition: the wavelet representation, IEEE Transactions on
Pattern Analysis and Machine Intelligence, 11, No. 7, 674-693.
Mallat, S. G. (1998) A Wavelet Tour of Signal Processing, Academic
Press.
See Also
dwt.3d, modwt.3d
waveslim documentation built on June 22, 2024, 9:43 a.m.
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| mra.3d | R Documentation |
Three Dimensional Multiresolution Analysis
Description
This function performs a level J additive decomposition of the input
array using the pyramid algorithm (Mallat 1989).
Usage
mra.3d(x, wf = "la8", J = 4, method = "modwt", boundary = "periodic")
Arguments
x |
A three-dimensional array containing the data be to decomposed.
This must be have dyadic length in all three dimensions (but not necessarily
the same) for |
wf |
Name of the wavelet filter to use in the decomposition. By
default this is set to |
J |
Specifies the depth of the decomposition. This must be a number
less than or equal to |
method |
Either |
boundary |
Character string specifying the boundary condition. If
|
Details
This code implements a three-dimensional multiresolution analysis by performing the one-dimensional pyramid algorithm (Mallat 1989) on each dimension of the input array. Either the DWT or MODWT may be used to compute the multiresolution analysis, which is an additive decomposition of the original array.
Value
List structure containing the filter triplets associated with the multiresolution analysis.
Author(s)
B. Whitcher
References
Mallat, S. G. (1989) A theory for multiresolution signal decomposition: the wavelet representation, IEEE Transactions on Pattern Analysis and Machine Intelligence, 11, No. 7, 674-693.
Mallat, S. G. (1998) A Wavelet Tour of Signal Processing, Academic Press.
See Also
dwt.3d, modwt.3d
R Package Documentation
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Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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