Hopf bifurcation and chaos in a single delayed neuron equation with non-monotonic activation function |
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| Institution: | 1. School of Mathematical Sciences, Anhui University, Hefei 230601, China;2. School of Mathematics and Physics, Anhui Jianzhu University, Hefei 230601, China;3. School of Electrical Engineering and Automation, Hefei University of Technology, Hefei 230009, China;1. Department of Nonlinear Dynamics, Bharathidasan University, Tiruchirappalli 620 024, Tamil Nadu, India;2. PG and Research Department of Physics, Nehru Memorial College (Autonomous), Puthanampatti, Tiruchirappalli 621 007, Tamil Nadu, India;3. Department of Physics, Bharathidasan University, Tiruchirappalli 620 024, Tamil Nadu, India;1. Guizhou Key Laboratory of Economics System Simulation, Guizhou University of Finance and Economics, Guiyang 550004, PR China;2. School of Mathematics and Statistics, Guizhou University of Finance and Economics, Guiyang 550004, PR China;3. Library, Guizhou University of Finance and Economics, Guiyang 550004, PR China;4. Faculty of Sciences of Bizerta, UR13ES47 Research Units of Mathematics and Applications, University of Carthage, Bizerta 7021, Tunisia |
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| Abstract: | A simple neural network model with discrete time delay is investigated. The linear stability of this model is discussed by analyzing the associated characteristic transcendental equation. For the case with inhibitory influence from the past state, it is found that Hopf bifurcation occurs when this influence varies and passes through a sequence of critical values. The stability of bifurcating periodic solutions and the direction of Hopf bifurcation are determined by applying the normal form theory and the center manifold theorem. Chaotic behavior of a single delayed neuron equation with non-monotonously increasing transfer function has been observed in computer simulation. Some waveform diagrams, phase portraits, power spectra and plots of the largest Lyapunov exponent will also be given. |
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