linear_SDLPP: Sample-Dependent Locality Preserving Projection
In Rdimtools: Dimension Reduction and Estimation Methods
do.sdlpp R Documentation
Sample-Dependent Locality Preserving Projection
Description
Many variants of Locality Preserving Projection are contingent on
graph construction schemes in that they sometimes return a range of
heterogeneous results when parameters are controlled to cover a wide range of values.
This algorithm takes an approach called sample-dependent construction of
graph connectivity in that it tries to discover intrinsic structures of data
solely based on data.
Usage
do.sdlpp(
X,
ndim = 2,
t = 1,
preprocess = c("center", "scale", "cscale", "decorrelate", "whiten")
)
Arguments
X
an (n\times p) matrix or data frame whose rows are observations.
ndim
an integer-valued target dimension.
t
kernel bandwidth in (0,\infty).
preprocess
an additional option for preprocessing the data.
Default is "center". See also aux.preprocess for more details.
Value
a named list containing
- Y
an (n\times ndim) matrix whose rows are embedded observations.
- trfinfo
a list containing information for out-of-sample prediction.
- projection
a (p\times ndim) whose columns are basis for projection.
Author(s)
Kisung You
References
\insertRefyang_sampledependent_2010Rdimtools
See Also
do.lpp
Examples
## use iris data
data(iris)
set.seed(100)
subid = sample(1:150, 50)
X = as.matrix(iris[subid,1:4])
label = as.factor(iris[subid,5])
## compare with PCA
out1 <- do.pca(X,ndim=2)
out2 <- do.sdlpp(X, t=0.01)
out3 <- do.sdlpp(X, t=10)
## visualize
opar <- par(no.readonly=TRUE)
par(mfrow=c(1,3))
plot(out1$Y, pch=19, col=label, main="PCA")
plot(out2$Y, pch=19, col=label, main="SDLPP::t=1")
plot(out3$Y, pch=19, col=label, main="SDLPP::t=10")
par(opar)
Rdimtools documentation built on Nov. 5, 2025, 5:28 p.m.
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| do.sdlpp | R Documentation |
Sample-Dependent Locality Preserving Projection
Description
Many variants of Locality Preserving Projection are contingent on graph construction schemes in that they sometimes return a range of heterogeneous results when parameters are controlled to cover a wide range of values. This algorithm takes an approach called sample-dependent construction of graph connectivity in that it tries to discover intrinsic structures of data solely based on data.
Usage
do.sdlpp(
X,
ndim = 2,
t = 1,
preprocess = c("center", "scale", "cscale", "decorrelate", "whiten")
)
Arguments
X |
an |
ndim |
an integer-valued target dimension. |
t |
kernel bandwidth in |
preprocess |
an additional option for preprocessing the data.
Default is "center". See also |
Value
a named list containing
- Y
an
(n\times ndim)matrix whose rows are embedded observations.- trfinfo
a list containing information for out-of-sample prediction.
- projection
a
(p\times ndim)whose columns are basis for projection.
Author(s)
Kisung You
References
\insertRefyang_sampledependent_2010Rdimtools
See Also
do.lpp
Examples
## use iris data
data(iris)
set.seed(100)
subid = sample(1:150, 50)
X = as.matrix(iris[subid,1:4])
label = as.factor(iris[subid,5])
## compare with PCA
out1 <- do.pca(X,ndim=2)
out2 <- do.sdlpp(X, t=0.01)
out3 <- do.sdlpp(X, t=10)
## visualize
opar <- par(no.readonly=TRUE)
par(mfrow=c(1,3))
plot(out1$Y, pch=19, col=label, main="PCA")
plot(out2$Y, pch=19, col=label, main="SDLPP::t=1")
plot(out3$Y, pch=19, col=label, main="SDLPP::t=10")
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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