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Exponential Stability of Almost Periodic Solution for Shunting Inhibitory Cellular Neural Networks with Time-Varying and Distributed Delays

Journal Name:

  • European Journal of Pure and Applied Mathematics

Publication Year:

  • 2009

Key Words:

Author NameUniversity of Author

AMS Codes:

Abstract (2. Language): 
In this paper, shunting inhibitory cellular neural networks (SICNNs) with timevarying and distributed delays are considered. Without assuming the global Lipschitz conditions of activation functions, some new sufficient conditions for the existence and exponential stability of the almost periodic solutions are established. Finally, a numerical example is given to demonstrate the effectiveness of the obtained result.
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448-461
  • English

REFERENCES

References: 

[1] B. Liu and L. Huang, Existence and stability of almost periodic solutions for shunting
inhibitory cellular neural networks with continuously distributed delays, Physics Letters
A, 349 (2006), 177-186.
[2] Y. Xia, J. Cao, and Z. Huang, Existence and exponential stability of almost periodic
solution for shunting inhibitory cellular neural networks with impulses, Chaos, Solitons
and Fractals, 34 (2007), 1599-1607.
[3] Q. Zhou, B. Xiao, Y. Yu, and L. Peng, Existence and exponential stability of almost
periodic solutions for shunting inhibitory cellular neural networks with continuously
distributed delays, Chaos, Solitons and Fractals, 34 (2007), 860-866.
[4] B. Liu, Almost periodic solutions for shunting inhibitory cellular neural networks without
global Lipschitz activation functions, Journal of Computational and Applied Mathematics,
203 (2007), 159-168.
[5] B. Liu and L. Huang, Existence and stability of almost periodic solutions for shunting
inhibitory cellular neural networks with time-varying delays, Chaos, Solitons and Fractals,
31 (2007), 211-217.
[6] Y. Liu, Z. You, and L. Cao, Almost periodic solution of shunting inhibitory cellular neural
networks with time-varying and continuously distributed delays, Physics Letters A, 364
(2007), 17-28.
[7] W. Zhao and H. Zhang, On almost periodic solution of shunting inhibitory cellular neural
networks with variable coefficients and time-varying delays, Nonlinear Analysis:
Real World Applications, 9 (2008), 2326-2336.
REFERENCES 461
[8] H. Ding, J. Liang, and T. Xiao, Existence of almost periodic solutions for SICNNs with
time-varying delays, Physics Letters A, 372 (2008), 5411-5416.
[9] M. Cai, H. Zhang, and Z. Yuan, Positive almost periodic solutions for shunting inhibitory
cellular neural networks with time-varying delays, Mathematics and Computers in Simulation,
78 (2008), 548-558.
[10] L. Chen and H. Zhao, Global stability of almost periodic solution of shunting inhibitory
cellular neural networks with variable coefficients, Chaos, Solitons and Fractals, 35
(2008), 351-357.
[11] J. Shao, L. Wang, and C. Ou, Almost periodic solutions for shunting inhibitory cellular
neural networks without global Lipschitz activaty functions, Applied Mathematical
Modelling, 33 (2009), 2575-2581.
[12] A. Fink, Almost periodic differential equations, Springer, Berlin (1974)

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