Characteristics of pattern formation and evolution in approximations of physarum transport networks

Jones, J. (2010) Characteristics of pattern formation and evolution in approximations of physarum transport networks. Artificial life, 16 (2). pp. 127-153. ISSN 1064-5462 Available from:

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Most studies of pattern formation place particular emphasis on its role in the development of complex multicellular body plans. In simpler organisms, however, pattern formation is intrinsic to growth and behavior. Inspired by one such organism, the true slime mold Physarum polycephalum, we present examples of complex emergent pattern formation and evolution formed by a population of simple particle-like agents. Using simple local behaviors based on chemotaxis, the mobile agent population spontaneously forms complex and dynamic transport networks. By adjusting simple model parameters, maps of characteristic patterning are obtained. Certain areas of the parameter mapping yield particularly complex long term behaviors, including the circular contraction of network lacunae and bifurcation of network paths to maintain network connectivity. We demonstrate the formation of irregular spots and labyrinthine and reticulated patterns by chemoattraction. Other Turing-like patterning schemes were obtained by using chemorepulsion behaviors, including the self-organization of regular periodic arrays of spots, and striped patterns. We show that complex pattern types can be produced without resorting to the hierarchical coupling of reaction-diffusion mechanisms. We also present network behaviors arising from simple pre-patterning cues, giving simple examples of how the emergent pattern formation processes evolve into networks with functional and quasi-physical properties including tensionlike effects, network minimization behavior, and repair to network damage. The results are interpreted in relation to classical theories of biological pattern formation in natural systems, and we suggest mechanisms by which emergent pattern formation processes may be used as a method for spatially represented unconventional computation.

Item Type:Article
Additional Information:3 month embargo from time of publishing before putting on Institutional Repository
Uncontrolled Keywords:pattern formation, pattern evolution, Physarum, transport networks
ID Code:15260
Deposited By: Dr J. Jones
Deposited On:14 Jul 2011 10:42
Last Modified:16 Nov 2016 01:58

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