When push comes to shove: Exclusion processes with nonlocal consequences

AA Almet; M Pan; BD Hughes; KA Landman

Journal article

When push comes to shove: Exclusion processes with nonlocal consequences

AA Almet, M Pan, BD Hughes, KA Landman

Physica A Statistical Mechanics and Its Applications | Published : 2015

DOI: 10.1016/j.physa.2015.05.031

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Abstract

Abstract Stochastic agent-based models are useful for modelling collective movement of biological cells. Lattice-based random walk models of interacting agents where each site can be occupied by at most one agent are called simple exclusion processes. An alternative motility mechanism to simple exclusion is formulated, in which agents are granted more freedom to move under the compromise that interactions are no longer necessarily local. This mechanism is termed shoving. A nonlinear diffusion equation is derived for a single population of shoving agents using mean-field continuum approximations. A continuum model is also derived for a multispecies problem with interacting subpopulations, whi..

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University of Melbourne Researchers

Barry Hughes Author

Kerry Landman Author

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Grants

Awarded by Australian Research Council

Funding Acknowledgements

This work was supported by the Australian Research Council (DP1110100795 and DP140100339) and an Australian Mathematical Sciences Institute student vacation scholarship (A.A. Almet). We thank an anonymous reviewer for alerting us to the manuscript [26].