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Computing Multi-Relational Sufficient Statistics for Large Databases

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arxiv 1408.5389 v1 pith:NBUDVUG7 submitted 2014-08-22 cs.LG cs.DB

Computing Multi-Relational Sufficient Statistics for Large Databases

classification cs.LG cs.DB
keywords informationjoinstatisticscomputingdatabasesrelationshipssufficientalgebra
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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Databases contain information about which relationships do and do not hold among entities. To make this information accessible for statistical analysis requires computing sufficient statistics that combine information from different database tables. Such statistics may involve any number of {\em positive and negative} relationships. With a naive enumeration approach, computing sufficient statistics for negative relationships is feasible only for small databases. We solve this problem with a new dynamic programming algorithm that performs a virtual join, where the requisite counts are computed without materializing join tables. Contingency table algebra is a new extension of relational algebra, that facilitates the efficient implementation of this M\"obius virtual join operation. The M\"obius Join scales to large datasets (over 1M tuples) with complex schemas. Empirical evaluation with seven benchmark datasets showed that information about the presence and absence of links can be exploited in feature selection, association rule mining, and Bayesian network learning.

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