On the Finite Sample Performance of the Nearest Neighbor Classifier

Abstract

The finite sample performance of a nearest neighbor classifier is analyzed for a two-class pattern recognition problem. An exact integral expression is derived for the m-sample risk R_m given that a reference m-sample of labeled points, drawn independently from Euclidean n-space according to a fixed probability distribution, is available to the classifier. For a family of smooth distributions characterized by asymptotic expansions in general form, it is shown that the m-sample risk R_m has a complete asymptotic series expansion R_m ~ R_∞ + Σ^∞_(k=1) c_km^(-k/n) (m → ∞) where R_∞ denotes the nearest neighbor risk in the infinite-sample limit. Improvements in convergence rate are shown under stronger smoothness assumptions, and in particular, R_m = R_∞ + O(m^(-2/n)) if the class-conditional probability densities have uniformly bounded third derivatives on their probability one support. This analysis thus provides further analytic validation of Bellman's curse of dimensionality. Numerical simulations corroborating the formal results are included, and extensions of the theory discussed. The analysis also contains a novel application of Laplace's asymptotic method of integration to a multidimensional integral where the integrand attains its maximum on a continuum of points.

Files

Additional details