| fviz_silhouette {factoextra} | R Documentation |
Visualize Silhouette Information from Clustering
Description
Silhouette (Si) analysis is a cluster validation approach that
measures how well an observation is clustered and it estimates the average
distance between clusters. fviz_silhouette() provides ggplot2-based elegant
visualization of silhouette information from i) the result of
silhouette(), pam(),
clara() and fanny() [in
cluster package]; ii) eclust() and hcut() [in
factoextra].
Read more: Clustering Validation Statistics.
Usage
fviz_silhouette(sil.obj, label = FALSE, print.summary = TRUE, ...)
Arguments
sil.obj |
an object of class silhouette: pam, clara, fanny [in cluster package]; eclust and hcut [in factoextra]. |
label |
logical value. If true, x axis tick labels are shown |
print.summary |
logical value. If true a summary of cluster silhouettes are printed in fviz_silhouette(). |
... |
other arguments to be passed to the function ggpubr::ggpar(). |
Details
- Observations with a large silhouhette Si (almost 1) are very well clustered.
- A small Si (around 0) means that the observation lies between two clusters.
- Observations with a negative Si are probably placed in the wrong cluster.
Value
return a ggplot
Author(s)
Alboukadel Kassambara alboukadel.kassambara@gmail.com
See Also
fviz_cluster, hcut,
hkmeans, eclust, fviz_dend
Examples
set.seed(123)
# Data preparation
# +++++++++++++++
data("iris")
head(iris)
# Remove species column (5) and scale the data
iris.scaled <- scale(iris[, -5])
# K-means clustering
# +++++++++++++++++++++
km.res <- kmeans(iris.scaled, 3, nstart = 2)
# Visualize kmeans clustering
fviz_cluster(km.res, iris[, -5], ellipse.type = "norm")+
theme_minimal()
# Visualize silhouhette information
require("cluster")
sil <- silhouette(km.res$cluster, dist(iris.scaled))
fviz_silhouette(sil)
# Identify observation with negative silhouette
neg_sil_index <- which(sil[, "sil_width"] < 0)
sil[neg_sil_index, , drop = FALSE]
## Not run:
# PAM clustering
# ++++++++++++++++++++
require(cluster)
pam.res <- pam(iris.scaled, 3)
# Visualize pam clustering
fviz_cluster(pam.res, ellipse.type = "norm")+
theme_minimal()
# Visualize silhouhette information
fviz_silhouette(pam.res)
# Hierarchical clustering
# ++++++++++++++++++++++++
# Use hcut() which compute hclust and cut the tree
hc.cut <- hcut(iris.scaled, k = 3, hc_method = "complete")
# Visualize dendrogram
fviz_dend(hc.cut, show_labels = FALSE, rect = TRUE)
# Visualize silhouhette information
fviz_silhouette(hc.cut)
## End(Not run)