
Accession Number : AD0628706
Title : NONPARAMETRIC PATTERN RECOGNITION. PART I. THE LOCALLY DISJOINT CASE.
Descriptive Note : Technical rept.,
Corporate Author : INFORMATION RESEARCH ASSOCIATES INC CAMBRIDGE MASS
Personal Author(s) : Owen,Joel
Report Date : 01 JUL 1965
Pagination or Media Count : 22
Abstract : The validity of the decision theoretic approach to pattern recognition depends primarily on the assumptions of the unknown underlying probability distribution. Here a mathematically rigorous procedure is developed which transforms the underlying unknown probability structure and then partitions the space by nonparametric techniques. In particular, the procedure transforms the learned samples to the real line using a functional which is dependent on estimates obtained from the learned samples. Treating these transformed onedimensional random variables in terms of cumulative distribution, the underlying probability space is then partitioned by the fact that the location of the extrema of the difference or cumulative functions will converge to the boundaries of the likelihood decision rule. The decision rule which essentially defines this procedure is dependent on the location of the extrema. Moreover, this decision will provide perfect discrimination between category j and k for some finite learning phase if j and k are locally separate or disjoint. (Author)
Descriptors : (*PATTERN RECOGNITION, DECISION THEORY), TRANSFORMATIONS(MATHEMATICS), PROBABILITY, DISTRIBUTION THEORY, STATISTICAL ANALYSIS, LEARNING MACHINES, LEARNING, AUTOMATA, BIONICS, INFORMATION THEORY
Subject Categories : Statistics and Probability
Bionics
Distribution Statement : APPROVED FOR PUBLIC RELEASE