Literature DB >> 25121646

Determining asymptotically large population sizes in insect swarms.

James G Puckett1, Nicholas T Ouellette2.   

Abstract

Social animals commonly form aggregates that exhibit emergent collective behaviour, with group dynamics that are distinct from the behaviour of individuals. Simple models can qualitatively reproduce such behaviour, but only with large numbers of individuals. But how rapidly do the collective properties of animal aggregations in nature emerge with group size? Here, we study swarms of Chironomus riparius midges and measure how their statistical properties change as a function of the number of participating individuals. Once the swarms contain order 10 individuals, we find that all statistics saturate and the swarms enter an asymptotic regime. The influence of environmental cues on the swarm morphology decays on a similar scale. Our results provide a strong constraint on how rapidly swarm models must produce collective states. But our findings support the feasibility of using swarms as a design template for multi-agent systems, because self-organized states are possible even with few agents.
© 2014 The Author(s) Published by the Royal Society. All rights reserved.

Entities:  

Keywords:  collective animal behaviour; self-organization; statistical mechanics

Mesh:

Year:  2014        PMID: 25121646      PMCID: PMC4233756          DOI: 10.1098/rsif.2014.0710

Source DB:  PubMed          Journal:  J R Soc Interface        ISSN: 1742-5662            Impact factor:   4.118


  12 in total

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  13 in total

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6.  Langevin dynamics encapsulate the microscopic and emergent macroscopic properties of midge swarms.

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