Generating logical expressions from positive and negative examples via a branch-and-bound approach

Generating logical expressions from positive and negative examples via a branch-and-bound approach

0.00 Avg rating0 Votes
Article ID: iaor19941544
Country: United Kingdom
Volume: 21
Issue: 2
Start Page Number: 185
End Page Number: 197
Publication Date: Feb 1994
Journal: Computers and Operations Research
Authors: , ,
Keywords: statistics: multivariate
Abstract:

Consider a logical system with N entities which assume binary values of either TRUE (1) or FALSE (0). There are 2N vectors, each with N components, of this type. Even when a modest value of N, e.g. N=50, the number of such vectors exceeds sone quadrillion. The authors assume that an ‘expert’ exists which can ascertain whether a particular vector (observation) such as (1,1,0,0,1,0,...,1) is allowable or not. This expert can be a human expert or an unknown system whose rules have to be inferred. Further, the authors assume that a sampling of m observations has resulted in M1 instances which the expert has classified as allowable and M2=m-M1 instances which are not allowable. They call these instances positive and negative examples, respectively. The objective of this research is to infer a set of logical rules for the entire system based upon the m, and possibly, additional sample observations. The proposed algorithm in this paper is based on an highly efficient branch-and-bound formulation. This algorithm configures a sequence of logical clauses in conjunctive normal form (CNF), that when are taken together, accept all the positive examples and reject all the negative examples. Some computational results indicate that the proposed approach can process problems that involve hundreds of positive and negative examples in a few CPU seconds and with small memory requirements.

Reviews

Required fields are marked *. Your email address will not be published.