A cellular automata model with probability infection and spatial dispersion

Zhen Jin; Quan Xing Liu; Haque Mainul

doi:10.1088/1009-1963/16/5/017

A cellular automata model with probability infection and spatial dispersion

Zhen Jin, Quan Xing Liu, Haque Mainul

Research output: Journal Publication › Article › peer-review

12 Citations (Scopus)

Abstract

In this article, we have proposed an epidemic model based on the probability cellular automata theory. The essential mathematical features are analysed with the help of stability theory. We have given an alternative modelling approach for the spatiotemporal system which is more realistic from the practical point of view. A discrete and spatiotemporal approach is shown by using cellular automata theory. It is interesting to note that both the size of the endemic equilibrium and the density of the individuals increase with the increase of the neighbourhood size and infection rate, but the infections decrease with the increase of the recovery rate. The stability of the system around the positive interior equilibrium has been shown by using a suitable Lyapunov function. Finally, experimental data simulation for SARS disease in China in 2003 and a brief discussion are given.

Original language	English
Article number	017
Pages (from-to)	1267-1275
Number of pages	9
Journal	Chinese Physics
Volume	16
Issue number	5
DOIs	https://doi.org/10.1088/1009-1963/16/5/017
Publication status	Published - 1 Jun 2007
Externally published	Yes

Keywords

Cellular automata
Mean-field approximation
SEIS model
Spatial epidemic
Stability

ASJC Scopus subject areas

General Physics and Astronomy

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10.1088/1009-1963/16/5/017

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AU - Jin, Zhen

AU - Liu, Quan Xing

AU - Mainul, Haque

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N2 - In this article, we have proposed an epidemic model based on the probability cellular automata theory. The essential mathematical features are analysed with the help of stability theory. We have given an alternative modelling approach for the spatiotemporal system which is more realistic from the practical point of view. A discrete and spatiotemporal approach is shown by using cellular automata theory. It is interesting to note that both the size of the endemic equilibrium and the density of the individuals increase with the increase of the neighbourhood size and infection rate, but the infections decrease with the increase of the recovery rate. The stability of the system around the positive interior equilibrium has been shown by using a suitable Lyapunov function. Finally, experimental data simulation for SARS disease in China in 2003 and a brief discussion are given.

AB - In this article, we have proposed an epidemic model based on the probability cellular automata theory. The essential mathematical features are analysed with the help of stability theory. We have given an alternative modelling approach for the spatiotemporal system which is more realistic from the practical point of view. A discrete and spatiotemporal approach is shown by using cellular automata theory. It is interesting to note that both the size of the endemic equilibrium and the density of the individuals increase with the increase of the neighbourhood size and infection rate, but the infections decrease with the increase of the recovery rate. The stability of the system around the positive interior equilibrium has been shown by using a suitable Lyapunov function. Finally, experimental data simulation for SARS disease in China in 2003 and a brief discussion are given.

KW - Cellular automata

KW - Mean-field approximation

KW - SEIS model

KW - Spatial epidemic

KW - Stability

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A cellular automata model with probability infection and spatial dispersion

Abstract

Keywords

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