Nonmonotonic enhancement of diversity-induced resonance in systems of mobile oscillators

Cong Liu, Zhi-Xi Wu, Jian-Yue Guan
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Abstract

Diversity is omnipresent in natural and synthetic extended systems, the phenomenon of diversity-induced resonance (DIR), wherein a moderate degree of the diversity can provoke an optimal collective response, provides researchers a brand-new strategy to amplify and utilize the weak signal. As yet the relevant advances focus mostly on the ideal situations where the interactions among elements are uncorrelated with the physical proximity of agents. Such a consideration overlooks interactions mediated by the motion of agents in space. Here, we investigate the signal response of an ensemble of spatial mobile heterogeneous bistable oscillators with two canonical interacting modes: dynamic and preset. The oscillators are considered as mass points and perform random walks in a two-dimensional square plane. Under the dynamic scheme, the oscillators can only interact with other oscillators within a fixed vision radius. For the preset circumstance, the interaction among oscillators occurs only when all of them are in a predefined region at the same moment. We find that the DIR can be obtained in both situations. Additionally, the strength of resonance nonmonotonically rises with respect to the increase of moving speed, and the optimal resonance is acquired by an intermediate magnitude of speed. Finally, we propose reduced equations to guarantee the occurrence of such mobility-optimized DIR on the basis of the fast switching approximation theory and also examine the robustness of such phenomenon through the excitable FitzHugh-Nagumo model and a different spatial motion mechanism. Our results reveal for the first time that the DIR can be optimized by the spatial mobility and thus has promising potential application in the communication of mobile agents.
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移动振子系统中分集共振的非单调增强
多样性在自然和合成扩展系统中无处不在,多样性诱发共振(DIR)现象为研究人员放大和利用微弱信号提供了一种全新的策略,适度的多样性可以引起最优的集体响应。到目前为止,相关的进展主要集中在元素之间的相互作用与代理的物理接近无关的理想情况下。这样的考虑忽略了由空间中代理的运动所介导的相互作用。在这里,我们研究了具有两种典型相互作用模式:动态和预设模式的空间移动异构双稳振荡器的信号响应。振荡子被认为是质量点,在二维方形平面上进行随机游走。在动态方案下,振子只能在固定的视觉半径内与其他振子相互作用。在预设条件下,振子之间的相互作用只有在所有振子同时处于预定区域时才会发生。我们发现在这两种情况下都可以获得DIR。共振强度随运动速度的增加呈非单调上升趋势,且在运动速度为中等量级时达到最优共振。最后,我们在快速切换近似理论的基础上提出了保证这种流动性优化DIR发生的简化方程,并通过可激FitzHugh-Nagumo模型和不同的空间运动机制检验了这种现象的鲁棒性。我们的研究结果首次揭示了空间移动性可以对DIR进行优化,因此在移动代理的通信中具有广阔的应用前景。
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