Stability Analysis of Impulsive BAM Fuzzy Cellular Neural Networks with Distributed Delays and Reaction-diffusion Terms
In this paper, a class of impulsive BAM fuzzy cellular neural networks with distributed delays and reaction-diffusion terms is formulated and investigated. By employing the delay differential inequality and inequality technique developed by Xu et al., some sufficient conditions ensuring the existence, uniqueness and global exponential stability of equilibrium point for impulsive BAM fuzzy cellular neural networks with distributed delays and reaction-diffusion terms are obtained. In particular, the estimate of the exponential convergence rate is also provided, which depends on system parameters, diffusion effect and impulsive disturbed intention. It is believed that these results are significant and useful for the design and applications of BAM fuzzy cellular neural networks. An example is given to show the effectiveness of the results obtained here.
[1] L. O. Chua, "Passivity and Complexity", IEEE Trans. Circ. Syst.-I:
Fundamental Theory and Applications 46 (1999) 71-82.
[2] M. Itoh, L. O. Chua, "Complexity of Reaction-diffusion CNN", Int. J.
Bifurc. Chaos 16 (2006) 2499-2527.
[3] L. Wang, D. Xu, "Global exponential stability of Hopfield reactiondiffusion
neural networks with variable delays", Sci. China Ser. F 46
(2003) 466-474.
[4] J. Liang, J. Cao, "Global exponential stability of reaction-diffusion
recurrent neural networks with time-varying delays", Phys. Lett. A 314
(2003) 434-442.
[5] A. Chen, L. Huang, J. Cao, "Exponential stability of delayed bidirectional
associative memory neural networks with reaction diffusion terms", Int.
J. Syst. Sci. 38 (2007) 421-432.
[6] X. Lou, B. Cui, "New criteria on global exponential stability of BAM
neural networks with distributed delays and reaction-diffusion terms", Int.
J. Neural Syst. 17 (2007) 43-52.
[7] X. Lou, B. Cui, "Asymptotic synchronization of a class of neural networks
with reaction-diffusion terms and time-varying delays", Computers &
Mathematics with Applications 52 (2006) 897-904.
[8] B. Cui, X. Lou, "Global asymptotic stability of BAM neural networks
with distributed delays and reaction-diffusion terms", Chaos, Solitons &
Fractals 27 (2006) 1347-1354.
[9] H. Zhao, G. Wang, "Existence of periodic oscillatory solution of reactiondiffusion
neural networks with delays", Phys. Lett. A 343 (2005) 372-383.
[10] Q. Song, Z. Wang, "An analysis on existence and global exponential
stability of periodic solutions for BAM neural networks with time-varying
delays", Nonlinear Analysis: Real World Applications 8 (2007) 1224-
1234.
[11] Q. Song, J. Cao, "Global exponential stability and existence of periodic
solutions in BAM networks with delays and reaction-diffusion terms",
Chaos, Solitons & Fractals 23 (2005) 421-430.
[12] Q. Song, Z. Zhao, Y. Li, "Global exponential stability of BAM neural
networks with distributed delays and reaction-diffusion terms", Phys. Lett.
A 335 (2005) 213-225.
[13] Q. Song, J. Cao, "Dynamics of bidirectional associative memory networks
with distributed delays and reaction-diffusion terms", Nonlinear
Anal.: Real World Applications 8 (2007) 345-361.
[14] Q. Song, J. Cao, "Exponential stability for impulsive BAM neural networks
with time-varying delays and reaction-diffusion terms", Advances
in Difference Equations 2007, art. no. 781608.
[15] Q. Song, Z. Wang, "Dynamical behaviors of fuzzy reaction-diffusion
periodic cellular neural networks with variable coefficients and delays",
Appl. Math. Model. 33 (2009) 3533-3545.
[16] Q. Zhou, J. Sun, G. Chen, "Global exponential stability and periodic
oscillations of reaction-diffusion BAM neural networks with periodic
coefficients and general delays", Int. J. Bifurc. Chaos 17 (2007) 129-142.
[17] J. G. Lu, "Global exponential stability and periodicity of reactiondiffusion
delayed recurrent neural networks with Dirichlet boundary
conditions", Chaos, Solitons & Fractals 35 (2008) 116-125.
[18] J. Wang, J. G. Lu, "Global exponential stability of fuzzy cellular neural
networks with delays and reaction-diffusion terms", Chaos, Solitons &
Fractals 38 (2008) 878-885.
[19] J. G. Lu, L. J. Lu, "Global exponential stability and periodicity of
reaction-diffusion recurrent neural networks with distributed delays and
Dirichlet boundary conditions", Chaos, Solitons & Fractals 39 (2009)
1538-1549.
[20] K. Li, Q. Song, "Stability analysis of BAM fuzzy neural networks with
distributed delays and reaction-diffusion terms", Dyn. Contin. Disc. Impul.
Syst.-A: Math. Anal. 16 (2009) 375-396.
[21] K. Li, "Stability analysis of impulsive fuzzy cellular neural networks
with time-varying delays and reaction-diffusion terms", Far East J.
Dynamical Systems 9 (2007) 325-344.
[22] K. Li, Q. Song, "Exponential stability of impulsive Cohen-Grossberg
neural networks with time-varying delays and reaction-diffusion terms",
Neurocomputing 72 (2008) 231-240.
[23] Z. Li, K. Li, "Stability analysis of impulsive Cohen-Grossberg neural
networks with distributed delays and reaction-diffusion terms", Appl.
Math. Model. 33 (2009) 1337-1348.
[24] K. Li, "Global exponential stability of impulsive fuzzy cellular neural
networks with delays and diffusion", Int. J. Bifurc. Chaos 19 (2009) 245-
261.
[25] J. Qiu, "Exponential stability of impulsive neural networks with timevarying
delays and reaction-diffusion terms", Neurocomputing 70 (2007)
1102-1108.
[26] T. Yang, L. Yang, "The global stability of fuzzy celluar neural networks",
IEEE Trans. Cric. Syst. I 43 (1996) 880-883.
[27] D. Xu, Z. Yang, "Impulsive delay differential inequality and stability of
neural networks", J. Math. Anal. Appl. 305 (2005) 107-120.
[28] X. Wang, D. Xu, "Global exponential stability of impulsive fuzzy
cellular neural networks with mixed delays and reaction-diffusion terms",
Chaos, Solitons & Fractals 42 (2009) 2713-2721.
[29] B. Kosko, "Adaptive bi-directional associative memories", Appl Opt. 26
(1987) 4947-4960.
[1] L. O. Chua, "Passivity and Complexity", IEEE Trans. Circ. Syst.-I:
Fundamental Theory and Applications 46 (1999) 71-82.
[2] M. Itoh, L. O. Chua, "Complexity of Reaction-diffusion CNN", Int. J.
Bifurc. Chaos 16 (2006) 2499-2527.
[3] L. Wang, D. Xu, "Global exponential stability of Hopfield reactiondiffusion
neural networks with variable delays", Sci. China Ser. F 46
(2003) 466-474.
[4] J. Liang, J. Cao, "Global exponential stability of reaction-diffusion
recurrent neural networks with time-varying delays", Phys. Lett. A 314
(2003) 434-442.
[5] A. Chen, L. Huang, J. Cao, "Exponential stability of delayed bidirectional
associative memory neural networks with reaction diffusion terms", Int.
J. Syst. Sci. 38 (2007) 421-432.
[6] X. Lou, B. Cui, "New criteria on global exponential stability of BAM
neural networks with distributed delays and reaction-diffusion terms", Int.
J. Neural Syst. 17 (2007) 43-52.
[7] X. Lou, B. Cui, "Asymptotic synchronization of a class of neural networks
with reaction-diffusion terms and time-varying delays", Computers &
Mathematics with Applications 52 (2006) 897-904.
[8] B. Cui, X. Lou, "Global asymptotic stability of BAM neural networks
with distributed delays and reaction-diffusion terms", Chaos, Solitons &
Fractals 27 (2006) 1347-1354.
[9] H. Zhao, G. Wang, "Existence of periodic oscillatory solution of reactiondiffusion
neural networks with delays", Phys. Lett. A 343 (2005) 372-383.
[10] Q. Song, Z. Wang, "An analysis on existence and global exponential
stability of periodic solutions for BAM neural networks with time-varying
delays", Nonlinear Analysis: Real World Applications 8 (2007) 1224-
1234.
[11] Q. Song, J. Cao, "Global exponential stability and existence of periodic
solutions in BAM networks with delays and reaction-diffusion terms",
Chaos, Solitons & Fractals 23 (2005) 421-430.
[12] Q. Song, Z. Zhao, Y. Li, "Global exponential stability of BAM neural
networks with distributed delays and reaction-diffusion terms", Phys. Lett.
A 335 (2005) 213-225.
[13] Q. Song, J. Cao, "Dynamics of bidirectional associative memory networks
with distributed delays and reaction-diffusion terms", Nonlinear
Anal.: Real World Applications 8 (2007) 345-361.
[14] Q. Song, J. Cao, "Exponential stability for impulsive BAM neural networks
with time-varying delays and reaction-diffusion terms", Advances
in Difference Equations 2007, art. no. 781608.
[15] Q. Song, Z. Wang, "Dynamical behaviors of fuzzy reaction-diffusion
periodic cellular neural networks with variable coefficients and delays",
Appl. Math. Model. 33 (2009) 3533-3545.
[16] Q. Zhou, J. Sun, G. Chen, "Global exponential stability and periodic
oscillations of reaction-diffusion BAM neural networks with periodic
coefficients and general delays", Int. J. Bifurc. Chaos 17 (2007) 129-142.
[17] J. G. Lu, "Global exponential stability and periodicity of reactiondiffusion
delayed recurrent neural networks with Dirichlet boundary
conditions", Chaos, Solitons & Fractals 35 (2008) 116-125.
[18] J. Wang, J. G. Lu, "Global exponential stability of fuzzy cellular neural
networks with delays and reaction-diffusion terms", Chaos, Solitons &
Fractals 38 (2008) 878-885.
[19] J. G. Lu, L. J. Lu, "Global exponential stability and periodicity of
reaction-diffusion recurrent neural networks with distributed delays and
Dirichlet boundary conditions", Chaos, Solitons & Fractals 39 (2009)
1538-1549.
[20] K. Li, Q. Song, "Stability analysis of BAM fuzzy neural networks with
distributed delays and reaction-diffusion terms", Dyn. Contin. Disc. Impul.
Syst.-A: Math. Anal. 16 (2009) 375-396.
[21] K. Li, "Stability analysis of impulsive fuzzy cellular neural networks
with time-varying delays and reaction-diffusion terms", Far East J.
Dynamical Systems 9 (2007) 325-344.
[22] K. Li, Q. Song, "Exponential stability of impulsive Cohen-Grossberg
neural networks with time-varying delays and reaction-diffusion terms",
Neurocomputing 72 (2008) 231-240.
[23] Z. Li, K. Li, "Stability analysis of impulsive Cohen-Grossberg neural
networks with distributed delays and reaction-diffusion terms", Appl.
Math. Model. 33 (2009) 1337-1348.
[24] K. Li, "Global exponential stability of impulsive fuzzy cellular neural
networks with delays and diffusion", Int. J. Bifurc. Chaos 19 (2009) 245-
261.
[25] J. Qiu, "Exponential stability of impulsive neural networks with timevarying
delays and reaction-diffusion terms", Neurocomputing 70 (2007)
1102-1108.
[26] T. Yang, L. Yang, "The global stability of fuzzy celluar neural networks",
IEEE Trans. Cric. Syst. I 43 (1996) 880-883.
[27] D. Xu, Z. Yang, "Impulsive delay differential inequality and stability of
neural networks", J. Math. Anal. Appl. 305 (2005) 107-120.
[28] X. Wang, D. Xu, "Global exponential stability of impulsive fuzzy
cellular neural networks with mixed delays and reaction-diffusion terms",
Chaos, Solitons & Fractals 42 (2009) 2713-2721.
[29] B. Kosko, "Adaptive bi-directional associative memories", Appl Opt. 26
(1987) 4947-4960.
@article{"International Journal of Engineering, Mathematical and Physical Sciences:62287", author = "Xinhua Zhang and Kelin Li", title = "Stability Analysis of Impulsive BAM Fuzzy Cellular Neural Networks with Distributed Delays and Reaction-diffusion Terms", abstract = "In this paper, a class of impulsive BAM fuzzy cellular neural networks with distributed delays and reaction-diffusion terms is formulated and investigated. By employing the delay differential inequality and inequality technique developed by Xu et al., some sufficient conditions ensuring the existence, uniqueness and global exponential stability of equilibrium point for impulsive BAM fuzzy cellular neural networks with distributed delays and reaction-diffusion terms are obtained. In particular, the estimate of the exponential convergence rate is also provided, which depends on system parameters, diffusion effect and impulsive disturbed intention. It is believed that these results are significant and useful for the design and applications of BAM fuzzy cellular neural networks. An example is given to show the effectiveness of the results obtained here.
", keywords = "Bi-directional associative memory, fuzzy cellular neuralnetworks, reaction-diffusion, delays, impulses, global exponentialstability.", volume = "4", number = "7", pages = "1013-11", }
