hcluster: Hierarchical Clustering
In amap: Another Multidimensional Analysis Package
hcluster R Documentation
Hierarchical Clustering
Description
Hierarchical cluster analysis.
Usage
hcluster(x, method = "euclidean", diag = FALSE, upper = FALSE,
link = "complete", members = NULL, nbproc = 2,
doubleprecision = TRUE)
Arguments
x
A numeric matrix of data, or an object that can be coerced to such a
matrix (such as a numeric vector or a data frame with all numeric
columns). Or an object of class "exprSet".
method
the distance measure to be used. This must be one of
"euclidean", "maximum", "manhattan",
"canberra", "binary", "pearson",
"abspearson", "correlation",
"abscorrelation", "spearman" or "kendall".
Any unambiguous substring can be given.
diag
logical value indicating whether the diagonal of the
distance matrix should be printed by print.dist.
upper
logical value indicating whether the upper triangle of the
distance matrix should be printed by print.dist.
link
the agglomeration method to be used. This should
be (an unambiguous abbreviation of) one of
"ward", "single", "complete",
"average", "mcquitty", "median" or
"centroid","centroid2", "ward.d2".
members
NULL or a vector with length size of d.
nbproc
integer, number of subprocess for parallelization [Linux
& Mac only]
doubleprecision
True: use of double precision for distance
matrix computation; False: use simple precision
Details
This function is a mix of function hclust and function
dist. hcluster(x, method = "euclidean",link = "complete")
= hclust(dist(x, method = "euclidean"),method = "complete"))
It use twice less memory, as it doesn't store distance matrix.
For more details, see documentation of hclust and Dist.
Value
An object of class hclust which describes the
tree produced by the clustering process.
The object is a list with components:
merge
an n-1 by 2 matrix.
Row i of merge describes the merging of clusters
at step i of the clustering.
If an element j in the row is negative,
then observation -j was merged at this stage.
If j is positive then the merge
was with the cluster formed at the (earlier) stage j
of the algorithm.
Thus negative entries in merge indicate agglomerations
of singletons, and positive entries indicate agglomerations
of non-singletons.
height
a set of n-1 non-decreasing real values.
The clustering height: that is, the value of
the criterion associated with the clustering
method for the particular agglomeration.
order
a vector giving the permutation of the original
observations suitable for plotting, in the sense that a cluster
plot using this ordering and matrix merge will not have
crossings of the branches.
labels
labels for each of the objects being clustered.
call
the call which produced the result.
method
the cluster method that has been used.
dist.method
the distance that has been used to create d
(only returned if the distance object has a "method"
attribute).
There is a print and a plot method for
hclust objects.
The plclust() function is basically the same as the plot method,
plot.hclust, primarily for back compatibility with S-plus. Its
extra arguments are not yet implemented.
Note
Multi-thread (parallelisation) is disable on Windows.
Author(s)
The hcluster function is based on C code adapted from Cran
Fortran routine
by Antoine Lucas.
References
Antoine Lucas and Sylvain Jasson, Using amap and ctc Packages
for Huge Clustering, R News, 2006, vol 6, issue 5 pages 58-60.
See Also
Dist,
hclust, kmeans.
Examples
data(USArrests)
hc <- hcluster(USArrests,link = "ave")
plot(hc)
plot(hc, hang = -1)
## Do the same with centroid clustering and squared Euclidean distance,
## cut the tree into ten clusters and reconstruct the upper part of the
## tree from the cluster centers.
hc <- hclust(dist(USArrests)^2, "cen")
memb <- cutree(hc, k = 10)
cent <- NULL
for(k in 1:10){
cent <- rbind(cent, colMeans(USArrests[memb == k, , drop = FALSE]))
}
hc1 <- hclust(dist(cent)^2, method = "cen", members = table(memb))
opar <- par(mfrow = c(1, 2))
plot(hc, labels = FALSE, hang = -1, main = "Original Tree")
plot(hc1, labels = FALSE, hang = -1, main = "Re-start from 10 clusters")
par(opar)
## other combinaison are possible
hc <- hcluster(USArrests,method = "euc",link = "ward", nbproc= 1,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "max",link = "single", nbproc= 2,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "man",link = "complete", nbproc= 1,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "can",link = "average", nbproc= 2,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "bin",link = "mcquitty", nbproc= 1,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "pea",link = "median", nbproc= 2,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "abspea",link = "median", nbproc= 2,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "cor",link = "centroid", nbproc= 1,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "abscor",link = "centroid", nbproc= 1,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "spe",link = "complete", nbproc= 2,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "ken",link = "complete", nbproc= 2,
doubleprecision = FALSE)
amap documentation built on Oct. 30, 2024, 9:09 a.m.
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| hcluster | R Documentation |
Hierarchical Clustering
Description
Hierarchical cluster analysis.
Usage
hcluster(x, method = "euclidean", diag = FALSE, upper = FALSE,
link = "complete", members = NULL, nbproc = 2,
doubleprecision = TRUE)
Arguments
x |
A numeric matrix of data, or an object that can be coerced to such a matrix (such as a numeric vector or a data frame with all numeric columns). Or an object of class "exprSet". |
method |
the distance measure to be used. This must be one of
|
diag |
logical value indicating whether the diagonal of the
distance matrix should be printed by |
upper |
logical value indicating whether the upper triangle of the
distance matrix should be printed by |
link |
the agglomeration method to be used. This should
be (an unambiguous abbreviation of) one of
|
members |
|
nbproc |
integer, number of subprocess for parallelization [Linux & Mac only] |
doubleprecision |
True: use of double precision for distance matrix computation; False: use simple precision |
Details
This function is a mix of function hclust and function
dist. hcluster(x, method = "euclidean",link = "complete")
= hclust(dist(x, method = "euclidean"),method = "complete"))
It use twice less memory, as it doesn't store distance matrix.
For more details, see documentation of hclust and Dist.
Value
An object of class hclust which describes the tree produced by the clustering process. The object is a list with components:
merge |
an |
height |
a set of |
order |
a vector giving the permutation of the original
observations suitable for plotting, in the sense that a cluster
plot using this ordering and matrix |
labels |
labels for each of the objects being clustered. |
call |
the call which produced the result. |
method |
the cluster method that has been used. |
dist.method |
the distance that has been used to create |
There is a print and a plot method for
hclust objects.
The plclust() function is basically the same as the plot method,
plot.hclust, primarily for back compatibility with S-plus. Its
extra arguments are not yet implemented.
Note
Multi-thread (parallelisation) is disable on Windows.
Author(s)
The hcluster function is based on C code adapted from Cran
Fortran routine
by Antoine Lucas.
References
Antoine Lucas and Sylvain Jasson, Using amap and ctc Packages for Huge Clustering, R News, 2006, vol 6, issue 5 pages 58-60.
See Also
Dist,
hclust, kmeans.
Examples
data(USArrests)
hc <- hcluster(USArrests,link = "ave")
plot(hc)
plot(hc, hang = -1)
## Do the same with centroid clustering and squared Euclidean distance,
## cut the tree into ten clusters and reconstruct the upper part of the
## tree from the cluster centers.
hc <- hclust(dist(USArrests)^2, "cen")
memb <- cutree(hc, k = 10)
cent <- NULL
for(k in 1:10){
cent <- rbind(cent, colMeans(USArrests[memb == k, , drop = FALSE]))
}
hc1 <- hclust(dist(cent)^2, method = "cen", members = table(memb))
opar <- par(mfrow = c(1, 2))
plot(hc, labels = FALSE, hang = -1, main = "Original Tree")
plot(hc1, labels = FALSE, hang = -1, main = "Re-start from 10 clusters")
par(opar)
## other combinaison are possible
hc <- hcluster(USArrests,method = "euc",link = "ward", nbproc= 1,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "max",link = "single", nbproc= 2,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "man",link = "complete", nbproc= 1,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "can",link = "average", nbproc= 2,
doubleprecision = TRUE)
hc <- hcluster(USArrests,method = "bin",link = "mcquitty", nbproc= 1,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "pea",link = "median", nbproc= 2,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "abspea",link = "median", nbproc= 2,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "cor",link = "centroid", nbproc= 1,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "abscor",link = "centroid", nbproc= 1,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "spe",link = "complete", nbproc= 2,
doubleprecision = FALSE)
hc <- hcluster(USArrests,method = "ken",link = "complete", nbproc= 2,
doubleprecision = FALSE)
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