DocumentCode
1558472
Title
Distributed decision fusion using empirical estimation
Author
Rao, Nageswara S V
Author_Institution
Center for Eng. Syst. Adv. Res., Oak Ridge Nat. Lab., TN, USA
Volume
33
Issue
4
fYear
1997
Firstpage
1106
Lastpage
1114
Abstract
The problem of optimal data fusion in multiple detection systems is studied in the case where training examples are available, but no a priori information is available about the probability distributions of errors committed by the individual detectors. Earlier solutions to this problem require some knowledge of the error distributions of the detectors, for example, either in a parametric form or in a closed analytical form. Here we show that, given a sufficiently large training sample, an optimal fusion rule can be implemented with an arbitrary level of confidence. We first consider the classical cases of Bayesian rule and Neyman-Pearson test for a system of independent detectors. Then we show a general result that any test function with a suitable Lipschitz property can be implemented with arbitrary precision, based on a training sample whose size is a function of the Lipschitz constant, number of parameters, and empirical measures. The general case subsumes the cases of nonindependent and correlated detectors.
Keywords
Bayes methods; distributed decision making; optimisation; probability; sensor fusion; Bayesian rule; Lipschitz constant; Neyman-Pearson test; arbitrary level of confidence; closed analytical form; correlated detectors; distributed decision fusion; empirical estimation; error distribution; independent detectors; multiple detection systems; nonindependent detectors; parametric form; probability distribution; training; training sample; Bayesian methods; Detectors; Government; Laboratories; Licenses; Power engineering and energy; Probability distribution; Size measurement; System testing; Systems engineering and theory; US Government;
fLanguage
English
Journal_Title
Aerospace and Electronic Systems, IEEE Transactions on
Publisher
ieee
ISSN
0018-9251
Type
jour
DOI
10.1109/7.624346
Filename
624346
Link To Document