Modeling ant battles by means of a diffusion-limited Gillespie algorithm.

IF 1.5 4区生物学 Q4 Agricultural and Biological Sciences Theoretical Biology Forum Pub Date : 2014-01-01

Gianluca Martelloni, Santarlasci Alisa, Franco Bagnoli, Giacomo Santini

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Abstract

We propose two modeling approaches to describe the dynamics of ant battles, starting from laboratory experiments on the behavior of two ant species, the invasive Lasius neglectus and the authocthonus Lasius paralienus. This work is mainly motivated by the need to have realistic models to predict the interaction dynamics of invasive species. The two considered species exhibit different fighting strategies. In order to describe the observed battle dynamics, we start by building a chemical model considering the ants and the fighting groups (for instance two ants of a species and one of the other one) as a chemical species. From the chemical equations we deduce a system of differential equations, whose parameters are estimated by minimizing the difference between the experimental data and the model output. We model the fluctuations observed in the experiments by means of a standard Gillespie algorithm. In order to better reproduce the observed behavior, we adopt a spatial agent-based model, in which ants not engaged in fighting groups move randomly (diffusion) among compartments, and the Gillespie algorithm is used to model the reactions inside a compartment.

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基于扩散限制Gillespie算法的蚁群战斗建模。

我们提出了两种描述蚂蚁战斗动力学的建模方法，从两种蚂蚁物种的行为实验开始，入侵的Lasius忽略和同源的Lasius paralienus。这项工作的主要动机是需要有现实的模型来预测入侵物种的相互作用动态。这两个物种表现出不同的战斗策略。为了描述观察到的战斗动态，我们首先建立一个化学模型，考虑蚂蚁和战斗群体(例如，一个物种的两只蚂蚁和另一只蚂蚁)作为一个化学物种。从化学方程中我们推导出一个微分方程组，其参数是通过最小化实验数据与模型输出之间的差来估计的。我们用标准的吉莱斯皮算法来模拟实验中观察到的波动。为了更好地再现观察到的行为，我们采用了基于空间主体的模型，其中不参与战斗群体的蚂蚁在隔间之间随机移动(扩散)，并使用Gillespie算法来模拟隔间内的反应。

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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