约束优化离散时 Arrow-Hurwicz-Uzawa primal-dual 算法的半全局指数稳定性

IF 2.2 2区数学 Q2 COMPUTER SCIENCE, SOFTWARE ENGINEERING Mathematical Programming Pub Date : 2024-02-12 DOI:10.1007/s10107-023-02051-2

Michelangelo Bin, Ivano Notarnicola, Thomas Parisini

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引用次数: 0

摘要

我们考虑了离散时间 Arrow-Hurwicz-Uzawa 原始二元算法（也称为一阶拉格朗日法），该算法适用于涉及光滑强凸成本和光滑凸约束的约束优化问题。我们证明，对于每个给定的紧凑初始条件集，总是存在一个足够小的步长，以保证问题的最优初等二元解的指数稳定性，其吸引域包括初始化集。受非线性振荡器分析的启发，稳定性证明基于包含非线性交叉项的非二次方 Lyapunov 函数。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Semiglobal exponential stability of the discrete-time Arrow-Hurwicz-Uzawa primal-dual algorithm for constrained optimization

We consider the discrete-time Arrow-Hurwicz-Uzawa primal-dual algorithm, also known as the first-order Lagrangian method, for constrained optimization problems involving a smooth strongly convex cost and smooth convex constraints. We prove that, for every given compact set of initial conditions, there always exists a sufficiently small stepsize guaranteeing exponential stability of the optimal primal-dual solution of the problem with a domain of attraction including the initialization set. Inspired by the analysis of nonlinear oscillators, the stability proof is based on a non-quadratic Lyapunov function including a nonlinear cross term.

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来源期刊

Mathematical Programming 数学-计算机：软件工程

CiteScore

5.70

自引率

11.10%

发文量

160

审稿时长

4-8 weeks

期刊介绍： Mathematical Programming publishes original articles dealing with every aspect of mathematical optimization; that is, everything of direct or indirect use concerning the problem of optimizing a function of many variables, often subject to a set of constraints. This involves theoretical and computational issues as well as application studies. Included, along with the standard topics of linear, nonlinear, integer, conic, stochastic and combinatorial optimization, are techniques for formulating and applying mathematical programming models, convex, nonsmooth and variational analysis, the theory of polyhedra, variational inequalities, and control and game theory viewed from the perspective of mathematical programming.