Your search keyword '"nonlinear population models"' showing total 2 results

1. Analysis of Structure-Preserving Discrete Models for Predator-Prey Systems with Anomalous Diffusion

Author

Joel Alba-Pérez and Jorge Eduardo Macías-Díaz

Subjects

Generality, Work (thermodynamics), Partial differential equation, Anomalous diffusion, Computer science, Continuous modelling, General Mathematics, 010102 general mathematics, Structure (category theory), structure-preserving methods, 01 natural sciences, 010101 applied mathematics, Population model, Bounded function, Riesz space-fractional diffusion, nonlinear population models, Computer Science (miscellaneous), Quantitative Biology::Populations and Evolution, Applied mathematics, systems of parabolic partial differential equations, stability and convergence analyses, 0101 mathematics, Engineering (miscellaneous)

Abstract

In this work, we investigate numerically a system of partial differential equations that describes the interactions between populations of predators and preys. The system considers the effects of anomalous diffusion and generalized Michaelis&ndash, Menten-type reactions. For the sake of generality, we consider an extended form of that system in various spatial dimensions and propose two finite-difference methods to approximate its solutions. Both methodologies are presented in alternative forms to facilitate their analyses and computer implementations. We show that both schemes are structure-preserving techniques, in the sense that they can keep the positive and bounded character of the computational approximations. This is in agreement with the relevant solutions of the original population model. Moreover, we prove rigorously that the schemes are consistent discretizations of the generalized continuous model and that they are stable and convergent. The methodologies were implemented efficiently using MATLAB. Some computer simulations are provided for illustration purposes. In particular, we use our schemes in the investigation of complex patterns in some two- and three-dimensional predator&ndash, prey systems with anomalous diffusion.

Published

2019

2. Analysis of Structure-Preserving Discrete Models for Predator-Prey Systems with Anomalous Diffusion.

Author

Alba-Pérez, Joel and Macías-Díaz, Jorge E.

Subjects

*PREDATION, *PARABOLIC differential equations, *PARTIAL differential equations, *DIFFUSION, *FINITE difference method

Abstract

In this work, we investigate numerically a system of partial differential equations that describes the interactions between populations of predators and preys. The system considers the effects of anomalous diffusion and generalized Michaelis–Menten-type reactions. For the sake of generality, we consider an extended form of that system in various spatial dimensions and propose two finite-difference methods to approximate its solutions. Both methodologies are presented in alternative forms to facilitate their analyses and computer implementations. We show that both schemes are structure-preserving techniques, in the sense that they can keep the positive and bounded character of the computational approximations. This is in agreement with the relevant solutions of the original population model. Moreover, we prove rigorously that the schemes are consistent discretizations of the generalized continuous model and that they are stable and convergent. The methodologies were implemented efficiently using MATLAB. Some computer simulations are provided for illustration purposes. In particular, we use our schemes in the investigation of complex patterns in some two- and three-dimensional predator–prey systems with anomalous diffusion. [ABSTRACT FROM AUTHOR]

Published

2019