English

A Lanczos-Stieltjes method for one-dimensional ridge function approximation and integration

Numerical Analysis 2019-05-13 v2

Abstract

Many of the input-parameter-to-output-quantity-of-interest maps that arise in computational science admit a surprising low-dimensional structure, where the outputs vary primarily along a handful of directions in the high-dimensional input space. This type of structure is well modeled by a ridge function, which is a composition of a low-dimensional linear transformation with a nonlinear function. If the goal is to compute statistics of the output (e.g., as in uncertainty quantification or robust design) then one should exploit this low-dimensional structure, when present, to accelerate computations. We develop Gaussian quadrature and the associated polynomial approximation for one-dimensional ridge functions. The key elements of our method are (i) approximating the univariate density of the given linear combination of inputs by repeated convolutions and (ii) a Lanczos-Stieltjes method for constructing orthogonal polynomials and Gaussian quadrature.

Keywords

Cite

@article{arxiv.1808.02095,
  title  = {A Lanczos-Stieltjes method for one-dimensional ridge function approximation and integration},
  author = {Andrew Glaws and Paul G. Constantine},
  journal= {arXiv preprint arXiv:1808.02095},
  year   = {2019}
}

Comments

24 pages, 14 figures

R2 v1 2026-06-23T03:25:59.638Z