Smoothness: Bias and Efficiency of Nonparametric Kernel Estimators
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Published:2016
Yulia Kotlyarova, Marcia M. A. Schafgans, Victoria Zinde-Walsh, 2016. "Smoothness: Bias and Efficiency of Nonparametric Kernel Estimators", Essays in Honor of Aman Ullah
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Abstract
For kernel-based estimators, smoothness conditions ensure that the asymptotic rate at which the bias goes to zero is determined by the kernel order. In a finite sample, the leading term in the expansion of the bias may provide a poor approximation. We explore the relation between smoothness and bias and provide estimators for the degree of the smoothness and the bias. We demonstrate the existence of a linear combination of estimators whose trace of the asymptotic mean-squared error is reduced relative to the individual estimator at the optimal bandwidth. We examine the finite-sample performance of a combined estimator that minimizes the trace of the MSE of a linear combination of individual kernel estimators for a multimodal density. The combined estimator provides a robust alternative to individual estimators that protects against uncertainty about the degree of smoothness.
