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(2013)NATURAL COMPUTING.12(2).p.277-289 Mark abstract Physarum polycephalum, a true slime mould, is a primitive, unicellular organism that creates networks to transport nutrients while foraging. The design of these natural networks proved to be advanced, e.g. the slime mould was able to find the shortest path through a maze. The underlying principles of this design have been mathematically modelled in literature. As in real life the slime mould can design fault tolerant networks, its principles can be applied to the design of man-made networks. In this paper, an existing model and algorithm are adapted and extended with stimulation and migration mechanisms which encourage formation of alternative paths, optimize edge positioning and allow for automated design. The extended model can then be used to better design fault tolerant networks. The extended algorithm is applied to several national and international network configurations. Results show that the extensions allow the model to capture the fault tolerance requirements more accurately. The resulting extended algorithm overcomes weaknesses in geometric graph design and can be used to design fault tolerant networks such as telecommunication networks with varying fault tolerance requirements.

Please use this url to cite or link to this publication: http://hdl.handle.net/1854/LU-4083393



Author: Maarten Houbraken , Sofie Demeyer , Dimitri Staessens , Pieter Audenaert , Didier Colle and Mario Pickavet

Source: https://biblio.ugent.be/publication/4083393



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