Spatiotemporal complexity of a Holling-Iv-type predator-prey model
In this paper, we focus on a spatial Holling-type IV predator-prey model which contains some important factors, such as diffusion, noise (random fluctuations) and external periodic forcing. By a brief stability and bifurcation analysis, we arrive at the Hopf and Turing bifurcation surface and derive the symbolic conditions for Hopf and Turing bifurcation in the spatial domain. Based on the stability and bifurcation analysis, we obtain spiral pattern formation via numerical simulation. Our results show that modeling by reaction-diffusion equations is an appropriate tool for investigating fundamental mechanisms of complex spatiotemporal dynamics.
Spatiotemporal Holling-Iv-type predator-prey model Hopf bifurcation Turing bifurcation
Lei Zhang Weiming Wang Yakui Xue Zhibin Li
Computer Science & Technology Department, East China Normal University, Shanghai, 200062;Institute o Institute of Nonlinear Analysis, School of Mathematics and Information Science, Wenzhou University,W Department of Mathematics, North University of China, Taiyuan, Shanxi 030051 Computer Science & Technology Department, East China Normal University, Shanghai, 200062
国际会议
The 1st International ELID-Grinding Conference(第一届镜面磨削技术国际会议)
长沙
英文
332-338
2008-06-12(万方平台首次上网日期,不代表论文的发表时间)