在集体系统中寻找结构。

IF 1.3 4区生物学 Q3 BIOLOGY

Theory in Biosciences Pub Date : 2021-11-01 Epub Date: 2020-03-23 DOI:10.1007/s12064-020-00311-9

Colin R Twomey, Andrew T Hartnett, Matthew M G Sosna, Pawel Romanczuk

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引用次数: 3

摘要

从鱼群和鸟群到生物膜和神经网络，自然界中的集体系统是由许多相互影响的个体组成的，这些个体在局部相互作用，产生大规模的协调行为。虽然协调是集体行为的核心，但这些系统中大规模协调的度量是特别的和系统特定的。由于缺乏共同的定量尺度，使得广泛的跨系统比较变得困难。在这里，我们确定了一个基于多元依赖的信息论度量的系统独立的协调度量，并表明它可以在实践中使用，甚至可以给出经典的、经过充分研究的集体系统的新观点。此外，我们使用这种方法推导出一种新的方法来寻找系统中最协调的组件，并演示如何在实践中使用这种方法来揭示系统内部的组织结构。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Searching for structure in collective systems.

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Searching for structure in collective systems.

From fish schools and bird flocks to biofilms and neural networks, collective systems in nature are made up of many mutually influencing individuals that interact locally to produce large-scale coordinated behavior. Although coordination is central to what it means to behave collectively, measures of large-scale coordination in these systems are ad hoc and system specific. The lack of a common quantitative scale makes broad cross-system comparisons difficult. Here we identify a system-independent measure of coordination based on an information-theoretic measure of multivariate dependence and show it can be used in practice to give a new view of even classic, well-studied collective systems. Moreover, we use this measure to derive a novel method for finding the most coordinated components within a system and demonstrate how this can be used in practice to reveal intrasystem organizational structure.

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来源期刊

Theory in Biosciences 生物-生物学

CiteScore

2.70

自引率

9.10%

发文量

审稿时长

3 months

期刊介绍： Theory in Biosciences focuses on new concepts in theoretical biology. It also includes analytical and modelling approaches as well as philosophical and historical issues. Central topics are: Artificial Life; Bioinformatics with a focus on novel methods, phenomena, and interpretations; Bioinspired Modeling; Complexity, Robustness, and Resilience; Embodied Cognition; Evolutionary Biology; Evo-Devo; Game Theoretic Modeling; Genetics; History of Biology; Language Evolution; Mathematical Biology; Origin of Life; Philosophy of Biology; Population Biology; Systems Biology; Theoretical Ecology; Theoretical Molecular Biology; Theoretical Neuroscience & Cognition.