English

Error bound and exact penalty method for optimization problems with nonnegative orthogonal constraint

Optimization and Control 2025-02-05 v5

Abstract

This paper is concerned with a class of optimization problems with the nonnegative orthogonal constraint, in which the objective function is LL-smooth on an open set containing the Stiefel manifold St(n,r){\rm St}(n,r). We derive a locally Lipschitzian error bound for the feasible points without zero rows when n>r>1n>r>1, and when n>r=1n>r=1 or n=rn=r achieve a global Lipschitzian error bound. Then, we show that the penalty problem induced by the elementwise 1\ell_1-norm distance to the nonnegative cone is a global exact penalty, and so is the one induced by its Moreau envelope under a lower second-order calmness of the objective function. A practical penalty algorithm is developed by solving approximately a series of smooth penalty problems with a retraction-based nonmonotone line-search proximal gradient method, and any cluster point of the generated sequence is shown to be a stationary point of the original problem. Numerical comparisons with the ALM \citep{Wen13} and the exact penalty method \citep{JiangM22} indicate that our penalty method has an advantage in terms of the quality of solutions despite taking a little more time.

Keywords

Cite

@article{arxiv.2111.03457,
  title  = {Error bound and exact penalty method for optimization problems with nonnegative orthogonal constraint},
  author = {Yitian Qian and Shaohua Pan and Lianghai Xiao},
  journal= {arXiv preprint arXiv:2111.03457},
  year   = {2025}
}

Comments

34 pages, and 6 figures

R2 v1 2026-06-24T07:27:42.729Z