A Partial-differential Approximation for Spatial Stochastic Process Algebra

Authors

DOI:

https://doi.org/10.4108/icst.valuetools.2014.258170

Keywords:

process algebra, fluid approximation, partial differential equations

Abstract

We study a spatial framework for process algebra with ordinary differential equation (ODE) semantics. We consider an explicit mobility model over a 2D lattice where processes may walk to neighbouring regions independently, and interact with each other when they are in same region. The ODE system size will grow linearly with the number of regions, hindering the analysis in practice. Assuming an unbiased random walk, we introduce an approximation in terms of a system of reaction-diffusion partial differential equations, of size independent of the lattice granularity. Numerical tests on a spatial version of the generalised Lotka-Volterra model show high accuracy and very competitive runtimes against ODE solutions for fine-grained lattices.

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Published

19-02-2015

How to Cite

[1]
M. . Tschaikowski and M. . Tribastone, “A Partial-differential Approximation for Spatial Stochastic Process Algebra”, EAI Endorsed Trans IoT, vol. 1, no. 4, p. e3, Feb. 2015.

Issue

Vol. 1 No. 4 (2015): EAI Endorsed Transactions on Internet of Things

Section

Research article

License

Copyright (c) 2015 EAI Endorsed Transactions on Internet of Things

Creative Commons License

This work is licensed under a Creative Commons Attribution 3.0 Unported License.

This is an open-access article distributed under the terms of the Creative Commons Attribution CC BY 3.0 license, which permits unlimited use, distribution, and reproduction in any medium so long as the original work is properly cited.