linear_LPE: Locality Pursuit Embedding
In kisungyou/Rdimtools: Dimension Reduction and Estimation Methods
do.lpe R Documentation
Locality Pursuit Embedding
Description
Locality Pursuit Embedding (LPE) is an unsupervised linear dimension reduction method.
It aims at preserving local structure by solving a variational problem that models
the local geometrical structure by the Euclidean distances.
Usage
do.lpe(
X,
ndim = 2,
preprocess = c("center", "scale", "cscale", "decorrelate", "whiten"),
numk = max(ceiling(nrow(X)/10), 2)
)
Arguments
X
an (n\times p) matrix or data frame whose rows are observations
and columns represent independent variables.
ndim
an integer-valued target dimension.
preprocess
an additional option for preprocessing the data.
Default is "center". See also aux.preprocess for more details.
numk
size of k-nn neighborhood in original dimensional space.
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
\insertRefmin_locality_2004Rdimtools
Examples
## generate swiss roll with auxiliary dimensions
set.seed(100)
n = 100
theta = runif(n)
h = runif(n)
t = (1+2*theta)*(3*pi/2)
X = array(0,c(n,10))
X[,1] = t*cos(t)
X[,2] = 21*h
X[,3] = t*sin(t)
X[,4:10] = matrix(runif(7*n), nrow=n)
## try with different neighborhood sizes
out1 = do.lpe(X, numk=5)
out2 = do.lpe(X, numk=10)
out3 = do.lpe(X, numk=25)
## visualize
opar <- par(no.readonly=TRUE)
par(mfrow=c(1,3))
plot(out1$Y, main="LPE::numk=5")
plot(out2$Y, main="LPE::numk=10")
plot(out3$Y, main="LPE::numk=25")
par(opar)
kisungyou/Rdimtools documentation built on Jan. 2, 2023, 9:55 a.m.
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| do.lpe | R Documentation |
Locality Pursuit Embedding
Description
Locality Pursuit Embedding (LPE) is an unsupervised linear dimension reduction method. It aims at preserving local structure by solving a variational problem that models the local geometrical structure by the Euclidean distances.
Usage
do.lpe(
X,
ndim = 2,
preprocess = c("center", "scale", "cscale", "decorrelate", "whiten"),
numk = max(ceiling(nrow(X)/10), 2)
)
Arguments
X |
an (n\times p) matrix or data frame whose rows are observations and columns represent independent variables. |
ndim |
an integer-valued target dimension. |
preprocess |
an additional option for preprocessing the data.
Default is "center". See also |
numk |
size of k-nn neighborhood in original dimensional space. |
Value
a named list containing
- Y
an (n\times ndim) matrix whose rows are embedded observations.
- trfinfo
a list containing information for out-of-sample prediction.
- projection
a (p\times ndim) whose columns are basis for projection.
Author(s)
Kisung You
References
\insertRefmin_locality_2004Rdimtools
Examples
## generate swiss roll with auxiliary dimensions set.seed(100) n = 100 theta = runif(n) h = runif(n) t = (1+2*theta)*(3*pi/2) X = array(0,c(n,10)) X[,1] = t*cos(t) X[,2] = 21*h X[,3] = t*sin(t) X[,4:10] = matrix(runif(7*n), nrow=n) ## try with different neighborhood sizes out1 = do.lpe(X, numk=5) out2 = do.lpe(X, numk=10) out3 = do.lpe(X, numk=25) ## visualize opar <- par(no.readonly=TRUE) par(mfrow=c(1,3)) plot(out1$Y, main="LPE::numk=5") plot(out2$Y, main="LPE::numk=10") plot(out3$Y, main="LPE::numk=25") par(opar)
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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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