Chance-constrained programs with convex underlying functions: a bilevel convex optimization perspective

IF 1.6 2区数学 Q2 MATHEMATICS, APPLIED Computational Optimization and Applications Pub Date : 2024-04-27 DOI:10.1007/s10589-024-00573-9

Yassine Laguel, Jérôme Malick, Wim van Ackooij

引用次数: 0

Abstract

Chance constraints are a valuable tool for the design of safe decisions in uncertain environments; they are used to model satisfaction of a constraint with a target probability. However, because of possible non-convexity and non-smoothness, optimizing over a chance constrained set is challenging. In this paper, we consider chance constrained programs where the objective function and the constraints are convex with respect to the decision parameter. We establish an exact reformulation of such a problem as a bilevel problem with a convex lower-level. Then we leverage this bilevel formulation to propose a tractable penalty approach, in the setting of finitely supported random variables. The penalized objective is a difference-of-convex function that we minimize with a suitable bundle algorithm. We release an easy-to-use open-source python toolbox implementing the approach, with a special emphasis on fast computational subroutines.

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具有凸基础函数的机会受限程序：双层凸优化视角

偶然性约束是在不确定环境中设计安全决策的重要工具；偶然性约束用于模拟满足目标概率的约束。然而，由于可能存在非凸性和非光滑性，在偶然约束集上进行优化具有挑战性。在本文中，我们考虑了目标函数和约束条件相对于决策参数都是凸的偶然约束程序。我们将此类问题精确地重新表述为具有凸低级问题的双级问题。然后，我们在有限支持随机变量的背景下，利用这种双层表述，提出了一种可行的惩罚方法。受惩罚的目标是一个凸函数差，我们用合适的捆绑算法将其最小化。我们发布了一个易于使用的开源 python 工具箱来实现这种方法，并特别强调了快速计算子程序。

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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来源期刊

Computational Optimization and Applications 数学-应用数学

CiteScore

3.70

自引率

9.10%

发文量

审稿时长

10 months

期刊介绍： Computational Optimization and Applications is a peer reviewed journal that is committed to timely publication of research and tutorial papers on the analysis and development of computational algorithms and modeling technology for optimization. Algorithms either for general classes of optimization problems or for more specific applied problems are of interest. Stochastic algorithms as well as deterministic algorithms will be considered. Papers that can provide both theoretical analysis, along with carefully designed computational experiments, are particularly welcome. Topics of interest include, but are not limited to the following: Large Scale Optimization, Unconstrained Optimization, Linear Programming, Quadratic Programming Complementarity Problems, and Variational Inequalities, Constrained Optimization, Nondifferentiable Optimization, Integer Programming, Combinatorial Optimization, Stochastic Optimization, Multiobjective Optimization, Network Optimization, Complexity Theory, Approximations and Error Analysis, Parametric Programming and Sensitivity Analysis, Parallel Computing, Distributed Computing, and Vector Processing, Software, Benchmarks, Numerical Experimentation and Comparisons, Modelling Languages and Systems for Optimization, Automatic Differentiation, Applications in Engineering, Finance, Optimal Control, Optimal Design, Operations Research, Transportation, Economics, Communications, Manufacturing, and Management Science.