Title :
Upper bounds for error rates of linear combinations of classifiers
Author :
Murua, Alejandro
Author_Institution :
Insightful Corp., Seattle, WA, USA
fDate :
5/1/2002 12:00:00 AM
Abstract :
A useful notion of weak dependence between many classifiers constructed with the same training data is introduced. It is shown that if both this weak dependence is low and the expected margins are large, then decision rules based on linear combinations of these classifiers can achieve error rates that decrease exponentially fast. Empirical results with randomized trees and trees constructed via boosting and bagging show that weak dependence is present in these type of trees. Furthermore, these results also suggest that there is a trade-off between weak dependence and expected margins, in the sense that to compensate for low expected margins, there should be low mutual dependence between the classifiers involved in the linear combination
Keywords :
error statistics; pattern classification; trees (mathematics); bagging; boosting; classification trees; decision rules; error rates; expected margins; exponential bounds; linear classifier combinations; machine learning; mutual dependence; randomized trees; training data; upper bounds; weak dependence; Error analysis;
Journal_Title :
Pattern Analysis and Machine Intelligence, IEEE Transactions on
