Returns a list representing a divisive hierarchical clustering of a dataset with binary variables only.
mona(x, trace.lev = 0)data matrix or data frame in which each row corresponds to an
observation, and each column corresponds to a variable. All
variables must be binary. A limited number of missing values (NAs)
is allowed. Every observation must have at least one value different
from NA. No variable should have half of its values
missing. There must be at least one variable which has no missing
values. A variable with all its non-missing values identical is
not allowed.
logical or integer indicating if (and how much) the algorithm should produce progress output.
an object of class "mona" representing the clustering.
See mona.object for details.
The mona-algorithm requires “pure” 0-1 values. However,
mona(x) allows x to contain (not too many)
NAs. In a preliminary step, these are “imputed”,
i.e., all missing values are filled in. To do this, the same measure
of association between variables is used as in the algorithm. When variable
f has missing values, the variable g with the largest absolute association
to f is looked up. When the association between f and g is positive,
any missing value of f is replaced by the value of g for the same
observation. If the association between f and g is negative, then any missing
value of f is replaced by the value of 1-g for the same
observation.
mona is fully described in chapter 7 of Kaufman and Rousseeuw (1990).
It is “monothetic” in the sense that each division is based on a
single (well-chosen) variable, whereas most other hierarchical methods
(including agnes and diana) are “polythetic”, i.e. they use
all variables together.
The mona-algorithm constructs a hierarchy of clusterings,
starting with one large cluster. Clusters are divided until all
observations in the same cluster have identical values for all variables.
At each stage, all clusters are divided according to the values of one variable. A cluster is divided into one cluster with all observations having value 1 for that variable, and another cluster with all observations having value 0 for that variable.
The variable used for splitting a cluster is the variable with the maximal total association to the other variables, according to the observations in the cluster to be splitted. The association between variables f and g is given by a(f,g)*d(f,g) - b(f,g)*c(f,g), where a(f,g), b(f,g), c(f,g), and d(f,g) are the numbers in the contingency table of f and g. [That is, a(f,g) (resp. d(f,g)) is the number of observations for which f and g both have value 0 (resp. value 1); b(f,g) (resp. c(f,g)) is the number of observations for which f has value 0 (resp. 1) and g has value 1 (resp. 0).] The total association of a variable f is the sum of its associations to all variables.
agnes for background and references;
mona.object, plot.mona.
# NOT RUN {
data(animals)
ma <- mona(animals)
ma
## Plot similar to Figure 10 in Struyf et al (1996)
plot(ma)
## One place to see if/how error messages are *translated* (to 'de' / 'pl'):
ani.NA <- animals; ani.NA[4,] <- NA
aniNA <- within(animals, { end[2:9] <- NA })
aniN2 <- animals; aniN2[cbind(1:6, c(3, 1, 4:6, 2))] <- NA
ani.non2 <- within(animals, end[7] <- 3 )
ani.idNA <- within(animals, end[!is.na(end)] <- 1 )
try( mona(ani.NA) ) ## error: .. object with all values missing
try( mona(aniNA) ) ## error: .. more than half missing values
try( mona(aniN2) ) ## error: all have at least one missing
try( mona(ani.non2) ) ## error: all must be binary
try( mona(ani.idNA) ) ## error: ditto
# }
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