Title :
Analysis of a Predator-Prey System Concerning Impulsive Effect
Author :
Wang, Lingshu ; Feng, Guanghui
Author_Institution :
Sch. of Math. & Stat., Hebei Univ. of Econ. & Bus., Shijiazhuang, China
Abstract :
A stage-structured predator-prey model with impulses is proposed and investigated. According to the fact of biological resource management, it is assumed that the immature individuals and the mature individuals of the predator population are divided by fixed age and that immature predator population does not have the ability to attack prey. Sufficient conditions, which guarantee the global attractivity of predator-extinction periodic solution and the permanence of the system, are obtained. Furthermore, numerical simulations shows there is a characteristic sequence of bifurcations, leading to a chaotic dynamics, which implies that the impulsive control model we considered has more complex dynamics including periodic doubling bifurcation, symmetry breaking bifurcation, period halving bifurcation, quasi-periodic oscillation and choas.
Keywords :
bifurcation; biology; chaos; large-scale systems; predator-prey systems; biological resource management; chaotic dynamics; choas; complex dynamics; immature predator population; impulsive effect; period halving bifurcation; periodic doubling bifurcation; predator-extinction periodic solution; predator-prey system; quasiperiodic oscillation; stage-structured predator-prey model; sufficient condition; symmetry breaking bifurcation; Bifurcation; Biological system modeling; Chaos; Mathematics; Numerical simulation; Predator prey systems; Resource management; Stability; Statistical analysis; Sufficient conditions; bifurcation; chaos; extinction; permanence; predator-prey model;
Conference_Titel :
Chaos-Fractals Theories and Applications, 2009. IWCFTA '09. International Workshop on
Conference_Location :
Shenyang
Print_ISBN :
978-0-7695-3853-2
DOI :
10.1109/IWCFTA.2009.27
