可实现热启动的二阶圆锥程序的二次收敛顺序编程法

IF 2.6 1区 数学 Q1 MATHEMATICS, APPLIED
Xinyi Luo, Andreas Wächter
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引用次数: 0

摘要

SIAM 优化期刊》,第 34 卷第 3 期,第 2943-2972 页,2024 年 9 月。 摘要。我们提出了一种线性二阶锥形程序的新方法。它基于非线性编程的顺序二次编程框架。与内点法相比,它可以利用主动集二次编程子问题求解器的热启动能力,实现局部二次收敛率。为了克服在圆锥约束的非线性公式中观察到的无差别性或奇异性,子问题用多面体外近似来逼近圆锥,并在整个迭代过程中不断完善。对于非退化实例,算法会隐含地识别出最优解位于极值点的圆锥集合。因此,最后的步骤与可变非线性优化问题的常规顺序二次编程步骤相同,从而产生局部二次收敛。我们证明了该方法的全局和局部收敛保证,并给出了数值实验,证实该方法可以利用良好的起点,与最先进的内点求解器相比,可以达到更高的精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A Quadratically Convergent Sequential Programming Method for Second-Order Cone Programs Capable of Warm Starts
SIAM Journal on Optimization, Volume 34, Issue 3, Page 2943-2972, September 2024.
Abstract. We propose a new method for linear second-order cone programs. It is based on the sequential quadratic programming framework for nonlinear programming. In contrast to interior point methods, it can capitalize on the warm-start capabilities of active-set quadratic programming subproblem solvers and achieve a local quadratic rate of convergence. In order to overcome the nondifferentiability or singularity observed in nonlinear formulations of the conic constraints, the subproblems approximate the cones with polyhedral outer approximations that are refined throughout the iterations. For nondegenerate instances, the algorithm implicitly identifies the set of cones for which the optimal solution lies at the extreme points. As a consequence, the final steps are identical to regular sequential quadratic programming steps for a differentiable nonlinear optimization problem, yielding local quadratic convergence. We prove the global and local convergence guarantees of the method and present numerical experiments that confirm that the method can take advantage of good starting points and can achieve higher accuracy compared to a state-of-the-art interior point solver.
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来源期刊
SIAM Journal on Optimization
SIAM Journal on Optimization 数学-应用数学
CiteScore
5.30
自引率
9.70%
发文量
101
审稿时长
6-12 weeks
期刊介绍: The SIAM Journal on Optimization contains research articles on the theory and practice of optimization. The areas addressed include linear and quadratic programming, convex programming, nonlinear programming, complementarity problems, stochastic optimization, combinatorial optimization, integer programming, and convex, nonsmooth and variational analysis. Contributions may emphasize optimization theory, algorithms, software, computational practice, applications, or the links between these subjects.
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