Minimizing Sequences in a Constrained DC Optimization Problem

Pub Date : 2024-02-12 DOI:10.1134/s0081543823060214

A. S. Strekalovsky

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Abstract

A smooth nonconvex optimization problem is considered, where the equality and inequality constraints and the objective function are given by DC functions. First, the original problem is reduced to an unconstrained problem with the help of I. I. Eremin’s exact penalty theory, and the objective function of the penalized problem also turns out to be a DC function. Necessary and sufficient conditions for minimizing sequences of the penalized problem are proved. On this basis, a “theoretical method” for constructing a minimizing sequence in the penalized problem with a fixed penalty parameter is proposed and the convergence of the method is proved. A well-known local search method and its properties are used for developing a new global search scheme based on global optimality conditions with a varying penalty parameter. The sequence constructed using the global search scheme turns out to be minimizing in the “limit” penalized problem, and each of its terms \(z^{k+1}\) turns out to be an approximately critical vector for the local search method and an approximate solution of the current penalized problem \((\mathcal{P}_{k})\triangleq(\mathcal{P}_{\sigma_{k}})\). Finally, under an additional condition of “approximate feasibility,” the constructed sequence turns out to be minimizing for the original problem with DC constraints.

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受约束直流优化问题中的序列最小化

本文考虑了一个平滑非凸优化问题，其中的等式和不等式约束以及目标函数均由 DC 函数给出。首先，在 I. I. Eremin 精确惩罚理论的帮助下，原始问题被简化为无约束问题。证明了最小化惩罚问题序列的必要条件和充分条件。在此基础上，提出了在惩罚参数固定的情况下构建惩罚问题最小化序列的 "理论方法"，并证明了该方法的收敛性。利用一种著名的局部搜索方法及其特性，开发了一种基于全局最优条件的新的全局搜索方案，该方案具有可变的惩罚参数。使用全局搜索方案构建的序列在 "极限 "惩罚问题中被证明是最小化的，并且它的每个项 \(z^{k+1}\)被证明是局部搜索方法的近似临界向量和当前惩罚问题的近似解 \((\mathcal{P}_{k})\triangleq(\mathcal{P}_{sigma_{k}})\)。最后，在 "近似可行 "的附加条件下，所构造的序列对于带有直流约束的原始问题来说是最小的。

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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