Title :
Learning With Kernel Smoothing Models and Low-Discrepancy Sampling
Author :
Cervellera, Cristiano ; Maccio, Danilo
Author_Institution :
Inst. of Intell. Syst. for Autom., Genoa, Italy
Abstract :
This brief presents an analysis of the performance of kernel smoothing models used to estimate an unknown target function, addressing the case where the choice of the training set is part of the learning process. In particular, we consider a choice of the points at which the function is observed based on low-discrepancy sequences, which is a family of sampling methods commonly employed for efficient numerical integration. We prove that, under suitable regularity assumptions, consistency of the empirical risk minimization is guaranteed with a good rate of convergence of the estimation error, as well as the convergence of the approximation error. Simulation results confirm, in practice, the good theoretical properties given by the combination of kernel smoothing models with low-discrepancy sampling.
Keywords :
integration; learning (artificial intelligence); sampling methods; smoothing methods; approximation error convergence; empirical risk minimization; estimation error convergence; kernel smoothing models; learning process; low-discrepancy sampling; low-discrepancy sampling methods; low-discrepancy sequence; numerical integration; target function estimation; training set; Approximation methods; Context; Convergence; Estimation; Kernel; Random sequences; Smoothing methods; Empirical risk minimization; function learning; kernel smoothing models; low-discrepancy sequences;
Journal_Title :
Neural Networks and Learning Systems, IEEE Transactions on
DOI :
10.1109/TNNLS.2012.2236353
