Self-organized criticality and emergent oscillations in models of termite architecture with crowding.

OTOOLE DV; ROBINSON PA; MYERSCOUGH MR

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Self-organized criticality and emergent oscillations in models of termite architecture with crowding.

机译：在拥挤的白蚁建筑模型中，自组织的临界度和出现的振荡。

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The termite architecture model of O'Toole et'al. (1999) is extended to incorporate arbitrary halting time-scales. It is shown that this also means that the assumption of synchronous building must be relaxed. Numerical simulations show that ordered nest architecture emerges under a wide range of time-scales but also that there is an optimal region of halting times. This optimal region is explained by the emergence of synchronized periods of termite activity. The correlation length of the building distribution is shown to diverge providing strong evidence that the model is self-organized critical.

机译：O'Toole等人的白蚁架构模型。（1999年）扩展到纳入任意暂停时间尺度。结果表明，这也意味着必须简化同步构建的假设。数值模拟表明，有序的嵌套结构会在很宽的时间范围内出现，但也有一个最佳的暂停时间区域。该最佳区域由白蚁活动同步时期的出现来解释。建筑物分布的相关长度显示出差异，这提供了有力的证据证明该模型是自组织关键的。

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《Journal of Theoretical Biology 》 |2003年第1期| 共13页
作者
OTOOLE DV; ROBINSON PA; MYERSCOUGH MR;
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正文语种 eng
中图分类普通生物学 ;
关键词
Isoptera; Self; Models; Crowding; Distributing; 等翅目; 拥挤;

机译：Isoptera;Self;Models;Crowding;Distributing;等翅目;拥挤;

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1. Self-organized criticality and emergent oscillations in models of termite architecture with crowding. [J] . OTOOLE DV, ROBINSON PA, MYERSCOUGH MR Journal of Theoretical Biology . 2003 ,第1期

机译：在拥挤的白蚁建筑模型中，自组织的临界度和出现的振荡。
2. Self-organized Criticality in Termite Architecture: a Role for Crowding in Ensuring Ordered Nest Expansion [J] . Otoole DV, Myerscough MR, Robinson PA Journal of Theoretical Biology . 1999 ,第3期

机译：白蚁建筑中的自组织临界：拥挤在确保有序巢扩展中的作用
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Self-organized criticality and emergent oscillations in models of termite architecture with crowding.

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