Optimization via the strategic law of large numbers

数学优化 全局优化 有界函数 数学 最优化问题 集合(抽象数据类型) 航程(航空) 功能(生物学) 偏微分方程 计算机科学 简单(哲学) 班级(哲学) 可行区 符号(数学) 优化测试函数 趋同(经济学) 蒙特卡罗方法 渐近最优算法 连续优化 随机优化 信任域 钥匙(锁) 有限集 结果(博弈论) 随机优化
作者
Xiaohong Chen,Zengjing Chen,Wayne Yuan Gao,Xiaodong Yan,Guodong Zhang
出处
期刊:Proceedings of the National Academy of Sciences of the United States of America [National Academy of Sciences]
卷期号:123 (4): e2519845123-e2519845123
标识
DOI:10.1073/pnas.2519845123
摘要

This paper proposes a framework for the global optimization of a possibly multimodal continuous function in a bounded rectangular domain. We first show that global optimization is equivalent to an optimal (sampling) strategy formation in a two-armed decision model with known distributions, based on the strategic law of large numbers we establish. There are many optimal strategies in general. We show that a concrete strategy using the sign of the partial gradient of the unique solution to a parabolic partial differential equation (PDE) is asymptotically optimal. Motivated by these results, we propose a class of Strategic Monte Carlo Optimization (SMCO) algorithms, which uses a simple strategy that makes coordinate-wise two-armed decisions based on the signs of the partial gradient (or practically the first difference) of the objective function, without the need of solving PDEs. Under some sufficient conditions, we establish that our SMCO algorithm converges to a local optimizer from a single starting point, and to a global optimizer under a growing set of starting points. Extensive numerical studies demonstrate the suitability of our SMCO algorithms for global optimization well beyond the theoretical guarantees established herein. For a wide range of deterministic and random test functions with challenging landscapes (multimodal, nondifferentiable, discontinuous), our SMCO algorithms perform robustly well, even in high-dimensional ([Formula: see text]) settings. In fact, our algorithms outperform many state-of-the-art global optimizers, as well as local algorithms (with the same set of starting points as ours).
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