Title :
GRG: knowledge discovery using information generalization, information reduction, and rule generation
Author :
Shan, Ning ; Hamilton, Howard J. ; Cercone, Nick
Author_Institution :
Dept. of Comput. Sci., Regina Univ., Sask., Canada
Abstract :
We present the three-step GRG approach for learning decision rules from large relational databases. In the first step, an attribute-oriented concept tree ascension technique is applied to generalize an information system. This step loses some information but substantially improves the efficiency of the following steps. In the second step, the reduction technique is applied to generate a minimized information system called a reduct which contains a minimal subset of the generalized attributes and the smallest number of distinct tuples for those attributes. Finally, a set of maximally general rules are derived directly from the reduct. These rules can be used to interpret and understand the active mechanisms underlying the database
Keywords :
database theory; knowledge acquisition; knowledge representation; learning (artificial intelligence); relational databases; tree data structures; very large databases; GRG; active mechanisms; attribute-oriented concept tree ascension; database mining; decision rule learning; distinct tuples; generalized attributes; information generalization; information reduction; information system; knowledge discovery; knowledge representation; large relational databases; maximally general rules; reduct; rule generation; Computational complexity; Computer science; Data analysis; Data mining; Decision support systems; Information systems; Knowledge representation; Machine learning; Relational databases; Rough sets;
Conference_Titel :
Tools with Artificial Intelligence, 1995. Proceedings., Seventh International Conference on
Conference_Location :
Herndon, VA
Print_ISBN :
0-8186-7312-5
DOI :
10.1109/TAI.1995.479781
