Localized SIR (SIR) is an extension of celebrated SIR method. As its name suggests, the locality concept is brought in that for each slice, only local data points are considered in order to discover intrinsic structure of the data.
do.lsir(
X,
response,
ndim = 2,
h = max(2, round(nrow(X)/5)),
preprocess = c("center", "scale", "cscale", "decorrelate", "whiten"),
ycenter = FALSE,
numk = max(2, round(nrow(X)/10)),
tau = 1
)an
a length-
an integer-valued target dimension.
the number of slices to divide the range of response vector.
an additional option for preprocessing the data.
Default is "center". See also aux.preprocess for more details.
a logical; TRUE to center the response variable, FALSE otherwise.
size of determining neighborhood via
regularization parameter for adjusting rank-deficient scatter matrix.
a named list containing
an
a list containing information for out-of-sample prediction.
a
wu_localized_2010Rdimtools
# NOT RUN {
## generate swiss roll with auxiliary dimensions
## it follows reference example from LSIR paper.
set.seed(100)
n = 123
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)
## corresponding response vector
y = sin(5*pi*theta)+(runif(n)*sqrt(0.1))
## try different number of neighborhoods
out1 = do.lsir(X, y, numk=5)
out2 = do.lsir(X, y, numk=10)
out3 = do.lsir(X, y, numk=25)
## visualize
opar <- par(no.readonly=TRUE)
par(mfrow=c(1,3))
plot(out1$Y, main="LSIR::nbd size=5")
plot(out2$Y, main="LSIR::nbd size=10")
plot(out3$Y, main="LSIR::nbd size=25")
par(opar)
# }
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