稀疏组 $$ell _0$$ 优化问题的子空间牛顿法

IF 1.8 3区数学 Q1 Mathematics Journal of Global Optimization Pub Date : 2024-04-29 DOI:10.1007/s10898-024-01396-y

Shichen Liao, Congying Han, Tiande Guo, Bonan Li

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引用次数: 0

摘要

本文研究了以稀疏组结构为特征的稀疏优化问题，其中共同考虑了元素和组级稀疏性。这种特殊的优化模型在特征选择、参数估计和提高模型可解释性等任务中表现出了显著的功效。我们研究的核心是对$\ell _0$ 和$\ell _{2,0}$ 规范正则化模型的仔细研究，与其他替代公式相比，该模型带来了巨大的计算挑战。我们利用（$\gamma $）静止点的概念，对稀疏组优化问题的最优性条件进行了分析，并建立了其与局部和全局最小化的联系，从而开始了我们的研究。在随后的研究中，我们为稀疏组 $\ell _0$ 优化问题开发了一种新颖的子空间牛顿算法，并证明了它的全局收敛特性以及局部二阶收敛率。实验结果表明，我们的算法在精确度和计算便利性方面都有卓越的表现，因此优于几种最先进的求解器。

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Subspace Newton method for sparse group $$\ell _0$$ optimization problem

This paper investigates sparse optimization problems characterized by a sparse group structure, where element- and group-level sparsity are jointly taken into account. This particular optimization model has exhibited notable efficacy in tasks such as feature selection, parameter estimation, and the advancement of model interpretability. Central to our study is the scrutiny of the $\ell _0$ and $\ell _{2,0}$ norm regularization model, which, in comparison to alternative surrogate formulations, presents formidable computational challenges. We embark on our study by conducting the analysis of the optimality conditions of the sparse group optimization problem, leveraging the notion of a $\gamma $-stationary point, whose linkage to local and global minimizer is established. In a subsequent facet of our study, we develop a novel subspace Newton algorithm for sparse group $\ell _0$ optimization problem and prove its global convergence property as well as local second-order convergence rate. Experimental results reveal the superlative performance of our algorithm in terms of both precision and computational expediency, thereby outperforming several state-of-the-art solvers.

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来源期刊

Journal of Global Optimization 数学-应用数学

CiteScore

0.10

自引率

5.60%

发文量

137

审稿时长

6 months

期刊介绍： The Journal of Global Optimization publishes carefully refereed papers that encompass theoretical, computational, and applied aspects of global optimization. While the focus is on original research contributions dealing with the search for global optima of non-convex, multi-extremal problems, the journal’s scope covers optimization in the widest sense, including nonlinear, mixed integer, combinatorial, stochastic, robust, multi-objective optimization, computational geometry, and equilibrium problems. Relevant works on data-driven methods and optimization-based data mining are of special interest. In addition to papers covering theory and algorithms of global optimization, the journal publishes significant papers on numerical experiments, new testbeds, and applications in engineering, management, and the sciences. Applications of particular interest include healthcare, computational biochemistry, energy systems, telecommunications, and finance. Apart from full-length articles, the journal features short communications on both open and solved global optimization problems. It also offers reviews of relevant books and publishes special issues.