English

Kernel Conjugate Gradient Methods with Random Projections

Machine Learning 2022-07-18 v2 Machine Learning Functional Analysis Optimization and Control Statistics Theory Statistics Theory

Abstract

We propose and study kernel conjugate gradient methods (KCGM) with random projections for least-squares regression over a separable Hilbert space. Considering two types of random projections generated by randomized sketches and Nystr\"{o}m subsampling, we prove optimal statistical results with respect to variants of norms for the algorithms under a suitable stopping rule. Particularly, our results show that if the projection dimension is proportional to the effective dimension of the problem, KCGM with randomized sketches can generalize optimally, while achieving a computational advantage. As a corollary, we derive optimal rates for classic KCGM in the well-conditioned regimes for the case that the target function may not be in the hypothesis space.

Keywords

Cite

@article{arxiv.1811.01760,
  title  = {Kernel Conjugate Gradient Methods with Random Projections},
  author = {Junhong Lin and Volkan Cevher},
  journal= {arXiv preprint arXiv:1811.01760},
  year   = {2022}
}

Comments

Updating acknowledgments; Accepted version for Applied and Computational Harmonic Analysis

R2 v1 2026-06-23T05:04:29.863Z