linear_LDP: Locally Discriminating Projection
In Rdimtools: Dimension Reduction and Estimation Methods
do.ldp R Documentation
Locally Discriminating Projection
Description
Locally Discriminating Projection (LDP) is a supervised linear dimension reduction method.
It utilizes both label/class information and local neighborhood information to discover
the intrinsic structure of the data. It can be considered as an extension
of LPP in a supervised manner.
Usage
do.ldp(
X,
label,
ndim = 2,
type = c("proportion", 0.1),
preprocess = c("center", "scale", "cscale", "decorrelate", "whiten"),
beta = 10
)
Arguments
X
an (n\times p) matrix or data frame whose rows are observations
and columns represent independent variables.
label
a length-n vector of data class labels.
ndim
an integer-valued target dimension.
type
a vector of neighborhood graph construction. Following types are supported;
c("knn",k), c("enn",radius), and c("proportion",ratio).
Default is c("proportion",0.1), connecting about 1/10 of nearest data points
among all data points. See also aux.graphnbd for more details.
preprocess
an additional option for preprocessing the data.
Default is "center". See also aux.preprocess for more details.
beta
bandwidth parameter for heat kernel in (0,∞).
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
\insertRefzhao_local_2006Rdimtools
Examples
## generate data of 3 types with clear difference
dt1 = aux.gensamples(n=20)-100
dt2 = aux.gensamples(n=20)
dt3 = aux.gensamples(n=20)+100
## merge the data and create a label correspondingly
X = rbind(dt1,dt2,dt3)
label = rep(1:3, each=20)
## try different neighborhood sizes
out1 = do.ldp(X, label, type=c("proportion",0.10))
out2 = do.ldp(X, label, type=c("proportion",0.25))
out3 = do.ldp(X, label, type=c("proportion",0.50))
## visualize
opar <- par(no.readonly=TRUE)
par(mfrow=c(1,3))
plot(out1$Y, col=label, pch=19, main="10% connectivity")
plot(out2$Y, col=label, pch=19, main="25% connectivity")
plot(out3$Y, col=label, pch=19, main="50% connectivity")
par(opar)
Rdimtools documentation built on Dec. 28, 2022, 1:44 a.m.
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| do.ldp | R Documentation |
Locally Discriminating Projection
Description
Locally Discriminating Projection (LDP) is a supervised linear dimension reduction method. It utilizes both label/class information and local neighborhood information to discover the intrinsic structure of the data. It can be considered as an extension of LPP in a supervised manner.
Usage
do.ldp(
X,
label,
ndim = 2,
type = c("proportion", 0.1),
preprocess = c("center", "scale", "cscale", "decorrelate", "whiten"),
beta = 10
)
Arguments
X |
an (n\times p) matrix or data frame whose rows are observations and columns represent independent variables. |
label |
a length-n vector of data class labels. |
ndim |
an integer-valued target dimension. |
type |
a vector of neighborhood graph construction. Following types are supported;
|
preprocess |
an additional option for preprocessing the data.
Default is "center". See also |
beta |
bandwidth parameter for heat kernel in (0,∞). |
Value
a named list containing
- Y
an (n\times ndim) matrix whose rows are embedded observations.
- trfinfo
a list containing information for out-of-sample prediction.
- projection
a (p\times ndim) whose columns are basis for projection.
Author(s)
Kisung You
References
\insertRefzhao_local_2006Rdimtools
Examples
## generate data of 3 types with clear difference
dt1 = aux.gensamples(n=20)-100
dt2 = aux.gensamples(n=20)
dt3 = aux.gensamples(n=20)+100
## merge the data and create a label correspondingly
X = rbind(dt1,dt2,dt3)
label = rep(1:3, each=20)
## try different neighborhood sizes
out1 = do.ldp(X, label, type=c("proportion",0.10))
out2 = do.ldp(X, label, type=c("proportion",0.25))
out3 = do.ldp(X, label, type=c("proportion",0.50))
## visualize
opar <- par(no.readonly=TRUE)
par(mfrow=c(1,3))
plot(out1$Y, col=label, pch=19, main="10% connectivity")
plot(out2$Y, col=label, pch=19, main="25% connectivity")
plot(out3$Y, col=label, pch=19, main="50% connectivity")
par(opar)
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