FastICA-class: Independent Component Analysis
In gdkrmr/dimRed: A Framework for Dimensionality Reduction
FastICA-class R Documentation
Independent Component Analysis
Description
An S4 Class implementing the FastICA algorithm for Indepentend
Component Analysis.
Details
ICA is used for blind signal separation of different sources. It is
a linear Projection.
Slots
funA function that does the embedding and returns a
dimRedResult object.
stdparsThe standard parameters for the function.
General usage
Dimensionality reduction methods are S4 Classes that either be used
directly, in which case they have to be initialized and a full
list with parameters has to be handed to the @fun()
slot, or the method name be passed to the embed function and
parameters can be given to the ..., in which case
missing parameters will be replaced by the ones in the
@stdpars.
Parameters
FastICA can take the following parameters:
- ndim
The number of output dimensions. Defaults to 2
Implementation
Wraps around fastICA. FastICA uses a very
fast approximation for negentropy to estimate statistical
independences between signals. Because it is a simple
rotation/projection, forward and backward functions can be given.
References
Hyvarinen, A., 1999. Fast and robust fixed-point algorithms for independent
component analysis. IEEE Transactions on Neural Networks 10, 626-634.
https://doi.org/10.1109/72.761722
See Also
Other dimensionality reduction methods:
AutoEncoder-class,
DRR-class,
DiffusionMaps-class,
DrL-class,
FruchtermanReingold-class,
HLLE-class,
Isomap-class,
KamadaKawai-class,
MDS-class,
NNMF-class,
PCA-class,
PCA_L1-class,
UMAP-class,
dimRedMethod-class,
dimRedMethodList(),
kPCA-class,
nMDS-class,
tSNE-class
Examples
if(requireNamespace("fastICA", quietly = TRUE)) {
dat <- loadDataSet("3D S Curve")
emb <- embed(dat, "FastICA", ndim = 2)
plot(getData(getDimRedData(emb)))
}
gdkrmr/dimRed documentation built on March 23, 2023, 5:44 a.m.
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| FastICA-class | R Documentation |
Independent Component Analysis
Description
An S4 Class implementing the FastICA algorithm for Indepentend Component Analysis.
Details
ICA is used for blind signal separation of different sources. It is a linear Projection.
Slots
funA function that does the embedding and returns a dimRedResult object.
stdparsThe standard parameters for the function.
General usage
Dimensionality reduction methods are S4 Classes that either be used
directly, in which case they have to be initialized and a full
list with parameters has to be handed to the @fun()
slot, or the method name be passed to the embed function and
parameters can be given to the ..., in which case
missing parameters will be replaced by the ones in the
@stdpars.
Parameters
FastICA can take the following parameters:
- ndim
The number of output dimensions. Defaults to
2
Implementation
Wraps around fastICA. FastICA uses a very
fast approximation for negentropy to estimate statistical
independences between signals. Because it is a simple
rotation/projection, forward and backward functions can be given.
References
Hyvarinen, A., 1999. Fast and robust fixed-point algorithms for independent component analysis. IEEE Transactions on Neural Networks 10, 626-634. https://doi.org/10.1109/72.761722
See Also
Other dimensionality reduction methods:
AutoEncoder-class,
DRR-class,
DiffusionMaps-class,
DrL-class,
FruchtermanReingold-class,
HLLE-class,
Isomap-class,
KamadaKawai-class,
MDS-class,
NNMF-class,
PCA-class,
PCA_L1-class,
UMAP-class,
dimRedMethod-class,
dimRedMethodList(),
kPCA-class,
nMDS-class,
tSNE-class
Examples
if(requireNamespace("fastICA", quietly = TRUE)) {
dat <- loadDataSet("3D S Curve")
emb <- embed(dat, "FastICA", ndim = 2)
plot(getData(getDimRedData(emb)))
}
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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