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Hopf bifurcation analysis in a multiple delayed innovation diffusion model with Holling II functional response
Authors:Rakesh Kumar  Anuj Kumar Sharma  Kulbhushan Agnihotri
Affiliation:1. Department of Applied Sciences, Shaheed Bhagat Singh State Technical Campus, Ferozepur, 152004 Punjab, India;2. Department of Mathematics, L.R.D.A.V. College, Jagraon, Ludhiana, 142026 Punjab, India
Abstract:A nonlinear mathematical model with Holling II functional response describing the dynamics of nonadopter and adopters population in a stage structured innovation diffusion model, which incorporates the evaluation stage (multiple delays), is proposed. Firstly, we study the stability and the existence of periodic solutions via Hopf bifurcation with respect to both delays at the positive equilibrium by analyzing the distribution of the roots of the corresponding exponential characteristic equation obtained through the variational matrix. The direction of the Hopf bifurcation and the stability of the bifurcating periodic solutions are determined with the help of normal form theory and center manifold theorem. Meanwhile, various cases are discussed to examine the effect of different delays on the stability of delayed innovation diffusion system and are also established numerically. It is also observed that the cumulative density of external influences has a significant role in developing maturity stage (adoption stage) in the system. Finally, numerical simulations are carried out to support and supplement the analytical findings.
Keywords:center manifold theorem  Hopf bifurcation  innovation diffusion model  multiple delays  normal form theory  stability analysis
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