arXiv:1908.01197 Abstract | arXiv Analytics

arXiv:1908.01197 [math.AP]Abstract References Reviews Resources

Murray's law for discrete and continuum models of biological networks

Jan Haskovec, Peter Markowich, Giulia Pilli

Published 2019-08-03Version 1

We demonstrate the validity of Murray's law, which represents a scaling relation for branch conductivities in a transportation network, for discrete and continuum models of biological networks. We first consider discrete networks with general metabolic coefficient and multiple branching nodes and derive a generalization of the classical 3/4-law. Next we prove an analogue of the discrete Murray's law for the continuum system obtained in the continuum limit of the discrete model on a rectangular mesh. Finally, we consider a continuum model derived from phenomenological considerations and show the validity of the Murray's law for its linearly stable steady states.

Categories: math.AP

Subjects: 92C35, 05C21, 76S05

Keywords: continuum model, biological networks, discrete murrays law, general metabolic coefficient, branch conductivities

Related articles: Most relevant | Search more

arXiv:2406.18076 [math.AP] (Published 2024-06-26)

Continuum modeling for opinion formation on a network

Gianluca Favre, Gaspard Jankowiak, Sara Merino-Aceituno, Lara Trussardi

arXiv:1609.05853 [math.AP] (Published 2016-09-19)

Weak solution of a continuum model for vicinal surface in the attachment-detachment-limited regime

Yuan Gao, Jian-Guo Liu, Jianfeng Lu

arXiv:2208.04195 [math.AP] (Published 2022-08-08)

A continuum model for brittle nanowires derived from an atomistic description by $Γ$-convergence