New Douglas-Rashford Splitting Algorithms for Generalized DC Programming with Applications in Machine Learning
Optimization and Control
2024-04-24 v1
Abstract
In this work, we propose some new Douglas-Rashford splitting algorithms for solving a class of generalized DC (difference of convex functions) in real Hilbert spaces. The proposed methods leverage the proximal properties of the nonsmooth component and a fasten control parameter which improves the convergence rate of the algorithms. We prove the convergence of these methods to the critical points of nonconvex optimization under reasonable conditions. We evaluate the performance and effectiveness of our methods through experimentation with three practical examples in machine learning. Our findings demonstrated that our methods offer efficiency in problem-solving and outperform state-of-the-art techniques like the DCA (DC Algorithm) and ADMM.
Cite
@article{arxiv.2404.14800,
title = {New Douglas-Rashford Splitting Algorithms for Generalized DC Programming with Applications in Machine Learning},
author = {Yonghong Yao and Lateef O. Jolaoso and Yekini Shehu and Jen-Chih Yao},
journal= {arXiv preprint arXiv:2404.14800},
year = {2024}
}