生物运输网络的优化

IF 1.2 4区数学 Q2 MATHEMATICS, APPLIED

East Asian Journal on Applied Mathematics Pub Date : 2022-06-01 DOI:10.4208/eajam.180521.130721

Yuan Hu

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引用次数: 4

摘要

．为了克服大规模大规模运输中扩散效率低的问题，大型生物普遍需要血管系统和叶脉系统等运输网络。尽管生物体之间存在着巨大的差异，但这些网络有许多共同的模式——即生物运输网络由管道组成，管道中的流体传递目标物质。此外，这些网络还保持着一个由小环路连接的树状主干。实验和数学研究表明，驱动生物运输网络结构优化的生物机制有许多相似之处。值得注意的是，生物体内运输网络的结构优化是在能量成本的意义上实现的，这是自然选择的结果。在这篇综述中，我们回顾了探索历史，并展示了用于设计生物运输网络的数学结构。

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Optimisation of Biological Transport Networks

. Transport networks such as blood vessel systems and leaf venation are uni-versally required for large-size living organisms in order to overcome the low efﬁciency of the diffusion in large scale mass transportation. Despite substantial differences in living organisms, such networks have many common patterns — viz. biological transport networks are made up of tubes and ﬂows in tubes deliver target substances. Besides, these networks maintain a tree-like backbone attached with small loops. Experimental and mathematical studies show many similarities in biological mechanisms, which drive structural optimisation in biological transport networks. It is worth noting that the structural optimisation of transport networks in living organisms is achieved in the sense of energy cost as a consequence of natural selection. In this review, we recall the exploration history and show mathematical structures used in the design of biological transport networks.

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来源期刊

East Asian Journal on Applied Mathematics MATHEMATICS, APPLIED-

CiteScore

2.60

自引率

8.30%

发文量

期刊介绍： The East Asian Journal on Applied Mathematics (EAJAM) aims at promoting study and research in Applied Mathematics in East Asia. It is the editorial policy of EAJAM to accept refereed papers in all active areas of Applied Mathematics and related Mathematical Sciences. Novel applications of Mathematics in real situations are especially welcome. Substantial survey papers on topics of exceptional interest will also be published occasionally.