classAgreement.Rd
classAgreement()
computes several coefficients of agreement
between the columns and rows of a 2-way contingency table.
classAgreement(tab, match.names=FALSE)
tab | A 2-dimensional contingency table. |
---|---|
match.names | Flag whether row and columns should be matched by name. |
Suppose we want to compare two classifications summarized by the
contingency table \(T=[t_{ij}]\) where \(i,j=1,\ldots,K\) and \(t_{ij}\)
denotes the number of data points which are in class \(i\) in the
first partition and in class \(j\) in the second partition. If both
classifications use the same labels, then obviously the two
classification agree completely if only elements in the main diagonal
of the table are non-zero. On the other hand, large off-diagonal
elements correspond to smaller agreement between the two
classifications. If match.names
is TRUE
, the class labels
as given by the row and column names are matched, i.e. only columns and
rows with the same dimnames are used for the computation.
If the two classification do not use the same set of labels, or if identical labels can have different meaning (e.g., two outcomes of cluster analysis on the same data set), then the situation is a little bit more complicated. Let \(A\) denote the number of all pairs of data points which are either put into the same cluster by both partitions or put into different clusters by both partitions. Conversely, let \(D\) denote the number of all pairs of data points that are put into one cluster in one partition, but into different clusters by the other partition. Hence, the partitions disagree for all pairs \(D\) and agree for all pairs \(A\). We can measure the agreement by the Rand index \(A/(A+D)\) which is invariant with respect to permutations of the columns or rows of \(T\).
Both indices have to be corrected for agreement by chance if the sizes of the classes are not uniform.
A list with components
Percentage of data points in the main diagonal of tab
.
diag
corrected for agreement by chance.
Rand index.
Rand index corrected for agreement by chance.
J.~Cohen. A coefficient of agreement for nominal scales. Educational and Psychological Measurement, 20, 37--46, 1960.
Lawrence Hubert and Phipps Arabie. Comparing partitions. Journal of Classification, 2, 193--218, 1985.
## no class correlations: both kappa and crand almost zero g1 <- sample(1:5, size=1000, replace=TRUE) g2 <- sample(1:5, size=1000, replace=TRUE) tab <- table(g1, g2) classAgreement(tab)#> $diag #> [1] 0.183 #> #> $kappa #> [1] -0.02083911 #> #> $rand #> [1] 0.6803223 #> #> $crand #> [1] -0.0002811108 #>## let pairs (g1=1,g2=1) and (g1=3,g2=3) agree better k <- sample(1:1000, size=200) g1[k] <- 1 g2[k] <- 1 k <- sample(1:1000, size=200) g1[k] <- 3 g2[k] <- 3 tab <- table(g1, g2) ## both kappa and crand should be significantly larger than before classAgreement(tab)#> $diag #> [1] 0.474 #> #> $kappa #> [1] 0.3104018 #> #> $rand #> [1] 0.7186627 #> #> $crand #> [1] 0.2232703 #>