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Adjusted mutual information

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In probability theory and information theory, adjusted mutual information, a variation of mutual information may be used for comparing clusterings.[1] It corrects the effect of agreement solely due to chance between clusterings, similar to the way the adjusted rand index corrects the Rand index. It is closely related to variation of information:[2] when a similar adjustment is made to the VI index, it becomes equivalent to the AMI.[1] The adjusted measure however is no longer metrical.[3]

Mutual information of two partitions

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Given a set S of N elements , consider two partitions of S, namely with R clusters, and with C clusters. It is presumed here that the partitions are so-called hard clusters; the partitions are pairwise disjoint:

for all , and complete:

The mutual information of cluster overlap between U and V can be summarized in the form of an RxC contingency table , where denotes the number of objects that are common to clusters and . That is,

Suppose an object is picked at random from S; the probability that the object falls into cluster is:

The entropy associated with the partitioning U is:

H(U) is non-negative and takes the value 0 only when there is no uncertainty determining an object's cluster membership, i.e., when there is only one cluster. Similarly, the entropy of the clustering V can be calculated as:

where . The mutual information (MI) between two partitions:

where denotes the probability that a point belongs to both the cluster in U and cluster in V:

MI is a non-negative quantity upper bounded by the entropies H(U) and H(V). It quantifies the information shared by the two clusterings and thus can be employed as a clustering similarity measure.

Adjustment for chance

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Like the Rand index, the baseline value of mutual information between two random clusterings does not take on a constant value, and tends to be larger when the two partitions have a larger number of clusters (with a fixed number of set elements N). By adopting a hypergeometric model of randomness, it can be shown that the expected mutual information between two random clusterings is:

where denotes . The variables and are partial sums of the contingency table; that is,

and

The adjusted measure[1] for the mutual information may then be defined to be:

.

The AMI takes a value of 1 when the two partitions are identical and 0 when the MI between two partitions equals the value expected due to chance alone.

References

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  1. ^ a b c Vinh, N. X.; Epps, J.; Bailey, J. (2009). "Information theoretic measures for clusterings comparison". Proceedings of the 26th Annual International Conference on Machine Learning - ICML '09. p. 1. doi:10.1145/1553374.1553511. ISBN 9781605585161.
  2. ^ Meila, M. (2007). "Comparing clusterings—an information based distance". Journal of Multivariate Analysis. 98 (5): 873–895. doi:10.1016/j.jmva.2006.11.013.
  3. ^ Vinh, Nguyen Xuan; Epps, Julien; Bailey, James (2010), "Information Theoretic Measures for Clusterings Comparison: Variants, Properties, Normalization and Correction for Chance" (PDF), The Journal of Machine Learning Research, 11 (oct): 2837–54
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