Error rates of non-bayes classification rules and the robustness of Fisher's linear discriminant function

Terence J. O'neill

doi:10.1093/biomet/79.1.177

Error rates of non-bayes classification rules and the robustness of Fisher's linear discriminant function

Terence J. O'neill

Research output: Contribution to journal › Article › Research › peer-review

Abstract

SUMMARY: We call a classification procedure non-Bayes if it does not converge to the Bayes classification procedure. An asymptotic expansion is found for the expected error rate of such a classification rule. This is used to compare the estimates of Fisher's linear discriminant rule, F, and the quadratic discriminant rule, Q, under departures from the equal variance matrices assumption. It is found that F is quite robust to departures from the equal variances assumption. © 1992 Biometrika Trust.

Original language	English
Pages (from-to)	177-184
Number of pages	8
Journal	Biometrika
Volume	79
Issue number	1
DOIs	https://doi.org/10.1093/biomet/79.1.177
Publication status	Published - 1 Mar 1992
Externally published	Yes

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title = "Error rates of non-bayes classification rules and the robustness of Fisher's linear discriminant function",

abstract = "SUMMARY: We call a classification procedure non-Bayes if it does not converge to the Bayes classification procedure. An asymptotic expansion is found for the expected error rate of such a classification rule. This is used to compare the estimates of Fisher's linear discriminant rule, F, and the quadratic discriminant rule, Q, under departures from the equal variance matrices assumption. It is found that F is quite robust to departures from the equal variances assumption. {\textcopyright} 1992 Biometrika Trust.",

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AB - SUMMARY: We call a classification procedure non-Bayes if it does not converge to the Bayes classification procedure. An asymptotic expansion is found for the expected error rate of such a classification rule. This is used to compare the estimates of Fisher's linear discriminant rule, F, and the quadratic discriminant rule, Q, under departures from the equal variance matrices assumption. It is found that F is quite robust to departures from the equal variances assumption. © 1992 Biometrika Trust.

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Error rates of non-bayes classification rules and the robustness of Fisher's linear discriminant function

Abstract

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