Smooth discrimination analysis

Enno Mammen; Alexandre B. Tsybakov

doi:10.1214/aos/1017939240

Smooth discrimination analysis

Enno Mammen
, Alexandre B. Tsybakov

University of Heidelberg

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

Abstract

Discriminant analysis for two data sets in ℝ^d with probability densities f and g can be based on the estimation of the set G = {x: f(x) ≥ g(x)}. We consider applications where it is appropriate to assume that the region G has a smooth boundary or belongs to another nonparametric class of sets. In particular, this assumption makes sense if discrimination is used as a data analytic tool. Decision rules based on minimization of empirical risk over the whole class of sets and over sieves are considered. Their rates of convergence are obtained. We show that these rules achieve optimal rates for estimation of G and optimal rates of convergence for Bayes risks. An interesting conclusion is that the optimal rates for Bayes risks can be very fast, in particular, faster than the "parametric" root-n rate. These fast rates cannot be guaranteed for plug-in rules.

Original language	English
Pages (from-to)	1808-1829
Number of pages	22
Journal	Annals of Statistics
Volume	27
Issue number	6
DOIs	https://doi.org/10.1214/aos/1017939240
Publication status	Published - 1 Jan 1999

Keywords

Bayes risk
Discrimination analysis
Empirical risk
Optimal rates
Sieves

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Cite this

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abstract = "Discriminant analysis for two data sets in ℝd with probability densities f and g can be based on the estimation of the set G = \{x: f(x) ≥ g(x)\}. We consider applications where it is appropriate to assume that the region G has a smooth boundary or belongs to another nonparametric class of sets. In particular, this assumption makes sense if discrimination is used as a data analytic tool. Decision rules based on minimization of empirical risk over the whole class of sets and over sieves are considered. Their rates of convergence are obtained. We show that these rules achieve optimal rates for estimation of G and optimal rates of convergence for Bayes risks. An interesting conclusion is that the optimal rates for Bayes risks can be very fast, in particular, faster than the {"}parametric{"} root-n rate. These fast rates cannot be guaranteed for plug-in rules.",

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AU - Tsybakov, Alexandre B.

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N2 - Discriminant analysis for two data sets in ℝd with probability densities f and g can be based on the estimation of the set G = {x: f(x) ≥ g(x)}. We consider applications where it is appropriate to assume that the region G has a smooth boundary or belongs to another nonparametric class of sets. In particular, this assumption makes sense if discrimination is used as a data analytic tool. Decision rules based on minimization of empirical risk over the whole class of sets and over sieves are considered. Their rates of convergence are obtained. We show that these rules achieve optimal rates for estimation of G and optimal rates of convergence for Bayes risks. An interesting conclusion is that the optimal rates for Bayes risks can be very fast, in particular, faster than the "parametric" root-n rate. These fast rates cannot be guaranteed for plug-in rules.

AB - Discriminant analysis for two data sets in ℝd with probability densities f and g can be based on the estimation of the set G = {x: f(x) ≥ g(x)}. We consider applications where it is appropriate to assume that the region G has a smooth boundary or belongs to another nonparametric class of sets. In particular, this assumption makes sense if discrimination is used as a data analytic tool. Decision rules based on minimization of empirical risk over the whole class of sets and over sieves are considered. Their rates of convergence are obtained. We show that these rules achieve optimal rates for estimation of G and optimal rates of convergence for Bayes risks. An interesting conclusion is that the optimal rates for Bayes risks can be very fast, in particular, faster than the "parametric" root-n rate. These fast rates cannot be guaranteed for plug-in rules.

KW - Bayes risk

KW - Discrimination analysis

KW - Empirical risk

KW - Optimal rates

KW - Sieves

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DO - 10.1214/aos/1017939240

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VL - 27

SP - 1808

EP - 1829

JO - Annals of Statistics

JF - Annals of Statistics

IS - 6

ER -

Smooth discrimination analysis

Abstract

Keywords

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