Robust Kernel-based Distribution Regression

04/21/2021
by   Zhan Yu, et al.
0

Regularization schemes for regression have been widely studied in learning theory and inverse problems. In this paper, we study distribution regression (DR) which involves two stages of sampling, and aims at regressing from probability measures to real-valued responses over a reproducing kernel Hilbert space (RKHS). Recently, theoretical analysis on DR has been carried out via kernel ridge regression and several learning behaviors have been observed. However, the topic has not been explored and understood beyond the least square based DR. By introducing a robust loss function l_σ for two-stage sampling problems, we present a novel robust distribution regression (RDR) scheme. With a windowing function V and a scaling parameter σ which can be appropriately chosen, l_σ can include a wide range of popular used loss functions that enrich the theme of DR. Moreover, the loss l_σ is not necessarily convex, hence largely improving the former regression class (least square) in the literature of DR. The learning rates under different regularity ranges of the regression function f_ρ are comprehensively studied and derived via integral operator techniques. The scaling parameter σ is shown to be crucial in providing robustness and satisfactory learning rates of RDR.

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