一类分布相关随机系统的最可能转移路径

IF 0.8 4区数学 Q3 STATISTICS & PROBABILITY

Stochastics and Dynamics Pub Date : 2023-10-06 DOI:10.1142/s0219493723400087

Wei Wei, Jianyu Hu, Jinqiao Duan

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引用次数: 0

摘要

分布相关随机动力系统在工程和科学中广泛应用。我们考虑了一类这样的系统，它模拟了在随机波动的矢量场中运动的相互作用粒子的极限行为。我们的目的是研究向量场平衡稳定状态之间最可能的过渡路径。在小噪声条件下，我们发现速率函数(或作用泛函)不涉及描述矢量场在零距离处受相互作用位移的无摄动确定性流的骨架方程的解。因此，我们研究了无分布依赖的随机微分方程的最可能转移路径。这使得通过自适应最小作用方法计算这些分布相关随机动力系统的最可能的过渡路径成为可能，我们用两个例子来说明我们的方法。

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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The Most Likely Transition Path for a Class of Distribution-Dependent Stochastic Systems

Distribution-dependent stochastic dynamical systems arise widely in engineering and science. We consider a class of such systems which model the limit behaviors of interacting particles moving in a vector field with random fluctuations. We aim to examine the most likely transition path between equilibrium stable states of the vector field. In the small noise regime, we find that the rate function (or action functional) does not involve with the solution of the skeleton equation, which describes unperturbed deterministic flow of the vector field shifted by the interaction at zero distance. As a result, we are led to study the most likely transition path for a stochastic differential equation without distribution-dependency. This enables the computation of the most likely transition path for these distribution-dependent stochastic dynamical systems by the adaptive minimum action method and we illustrate our approach in two examples.

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来源期刊

Stochastics and Dynamics 数学-统计学与概率论

CiteScore

1.70

自引率

0.00%

发文量

审稿时长

>12 weeks

期刊介绍： This interdisciplinary journal is devoted to publishing high quality papers in modeling, analyzing, quantifying and predicting stochastic phenomena in science and engineering from a dynamical system''s point of view. Papers can be about theory, experiments, algorithms, numerical simulation and applications. Papers studying the dynamics of stochastic phenomena by means of random or stochastic ordinary, partial or functional differential equations or random mappings are particularly welcome, and so are studies of stochasticity in deterministic systems.