随机分布延迟蜂群中的噪声诱导模式切换。

Brandon Lindley, Luis Mier-Y-Teran-Romero, Ira B Schwartz
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引用次数: 11

摘要

本文研究了噪声对耦合自推进粒子系统动力学的影响,该系统的耦合是时滞的,且时滞是离散的和随机产生的。以前的工作已经证明了一类新兴模式的稳定性取决于时延分布的所有矩,并预测了它们的分岔参数范围。在这些模式的分岔附近,噪声可能引起从一种模式到另一种模式的转变。我们通过数值模拟系统在一定范围的噪声强度和不同的延迟分布来研究这些噪声诱导的群体重组的开始。有趣的是,存在一个临界噪声阈值,超过该阈值,系统将被迫从组织较少的状态过渡到组织较多的状态。我们通过量化这个临界噪声阈值来探索这一现象,并注意到状态之间的过渡时间作为噪声强度和延迟分布的函数而变化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Noise Induced Pattern Switching in Randomly Distributed Delayed Swarms.

We study the effects of noise on the dynamics of a system of coupled self-propelling particles in the case where the coupling is time-delayed, and the delays are discrete and randomly generated. Previous work has demonstrated that the stability of a class of emerging patterns depends upon all moments of the time delay distribution, and predicts their bifurcation parameter ranges. Near the bifurcations of these patterns, noise may induce a transition from one type of pattern to another. We study the onset of these noise-induced swarm re-organizations by numerically simulating the system over a range of noise intensities and for various distributions of the delays. Interestingly, there is a critical noise threshold above which the system is forced to transition from a less organized state to a more organized one. We explore this phenomenon by quantifying this critical noise threshold, and note that transition time between states varies as a function of both the noise intensity and delay distribution.

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