Almost Periodicity in a Harvesting Lotka-Volterra Recurrent Neural Networks with Time-Varying Delays
By using the theory of exponential dichotomy and Banach fixed point theorem, this paper is concerned with the problem of the existence and uniqueness of positive almost periodic solution in a delayed Lotka-Volterra recurrent neural networks with harvesting terms. To a certain extent, our work in this paper corrects some result in recent years. Finally, an example is given to illustrate the feasibility and effectiveness of the main result.
<p>[1] F. Tomoki, T. Shigeru, A simple neural network exhibiting selective
activation of neuronal ensembles: from winner-take-all to winners-shareall,
Neural Comput. 9 (1997) 77-97.
[2] Y. Moreau, S. Louies, J. Vandewalle, L. Brenig, Embedding recurrent
neural networks into predator-prey models, Neural Networks 12 (1999)
237-245.
[3] Y. Zhang, K. K. Tan, Global convergence of Lotka-Volterra recurrent
neural networks with delays, IEEE Transactions on Circuits and Systems
I: Fundamental Theory and Applications 52 (2005) 2482-2489.
[4] Y. G. Liu, B. B. Liu, S. H. Ling, The almost periodic solution of
Lotka-Volterra recurrent neural networks with delays, Neurocomputing
74 (2011) 1062-1068.
[5] J. Y. Shao, L. J. Wang, C. X. Ou, Almost periodic solutions for shunting
inhibitory cellular neural networks without global Lipschitz activaty
functions, Appl. Math. Model. 33 (2009) 2575-2581.
[6] C. Z. Bai, Existence and stability of almost periodic solutions of Hopfield
neural networks with continuously distributed delays, Nonlinear Anal.:
TMA 71 (2009) 5850-5859.
[7] H. J. Xiang, J. D. Cao, Almost periodic solution of Cohen-Grossberg
neural networks with bounded and unbounded delays, Nonlinear Anal.:
RWA 10 (2009) 2407-2419.
[8] Y. K. Li, X. L. Fan, Existence and globally exponential stability of
almost periodic solution for Cohen-Grossberg BAM neural networks with
variable coefficients, Appl. Math. Model. 33 (2009) 2114-2120.
[9] G. Dai, M. Tang, Coexistence region and global dynamics of a harvested
predator-prey system, SIAM J. Appl. Math. 58 (1998) 193-210.
[10] D. Xiao, L. Jennings, Bifurcations of a ratio-dependent predator-prey
system with constant rate harvesting, SIAM J. Appl. Math. 65 (2005)
737-753.
[11] T. K. Kar, U. K. Pahari, Non-selective harvesting in prey-predator
models with delay, Commun. Nonlinear Sci. Numer. Simulat. 11 (2006)
499-509.
[12] T. K. Kar, A. Ghorai, Dynamic behaviour of a delayed predator-prey
model with harvesting, Appl. Math. Comput. 217 (2011) 9085-9104.
[13] A. M. Fink, Almost Periodic Differential Equation, Spring-Verlag,
Berlin, Heidleberg, New York, 1974.
[14] C. Y. He, Almost Periodic Differential Equations, Higher Education
Press, 1992 (in Chinese).
[15] W. A. Coppel, Dichotomies in Stability Theory, Lecture Notes in
Mathematics, Springer, Berlin, Germany, 1978.
[16] R. P. Agarwal, M. Meehan, D. O’Regan, Fixed Point Theory and
Applications, Cambridge University Press, 2004.</p>
<p>[1] F. Tomoki, T. Shigeru, A simple neural network exhibiting selective
activation of neuronal ensembles: from winner-take-all to winners-shareall,
Neural Comput. 9 (1997) 77-97.
[2] Y. Moreau, S. Louies, J. Vandewalle, L. Brenig, Embedding recurrent
neural networks into predator-prey models, Neural Networks 12 (1999)
237-245.
[3] Y. Zhang, K. K. Tan, Global convergence of Lotka-Volterra recurrent
neural networks with delays, IEEE Transactions on Circuits and Systems
I: Fundamental Theory and Applications 52 (2005) 2482-2489.
[4] Y. G. Liu, B. B. Liu, S. H. Ling, The almost periodic solution of
Lotka-Volterra recurrent neural networks with delays, Neurocomputing
74 (2011) 1062-1068.
[5] J. Y. Shao, L. J. Wang, C. X. Ou, Almost periodic solutions for shunting
inhibitory cellular neural networks without global Lipschitz activaty
functions, Appl. Math. Model. 33 (2009) 2575-2581.
[6] C. Z. Bai, Existence and stability of almost periodic solutions of Hopfield
neural networks with continuously distributed delays, Nonlinear Anal.:
TMA 71 (2009) 5850-5859.
[7] H. J. Xiang, J. D. Cao, Almost periodic solution of Cohen-Grossberg
neural networks with bounded and unbounded delays, Nonlinear Anal.:
RWA 10 (2009) 2407-2419.
[8] Y. K. Li, X. L. Fan, Existence and globally exponential stability of
almost periodic solution for Cohen-Grossberg BAM neural networks with
variable coefficients, Appl. Math. Model. 33 (2009) 2114-2120.
[9] G. Dai, M. Tang, Coexistence region and global dynamics of a harvested
predator-prey system, SIAM J. Appl. Math. 58 (1998) 193-210.
[10] D. Xiao, L. Jennings, Bifurcations of a ratio-dependent predator-prey
system with constant rate harvesting, SIAM J. Appl. Math. 65 (2005)
737-753.
[11] T. K. Kar, U. K. Pahari, Non-selective harvesting in prey-predator
models with delay, Commun. Nonlinear Sci. Numer. Simulat. 11 (2006)
499-509.
[12] T. K. Kar, A. Ghorai, Dynamic behaviour of a delayed predator-prey
model with harvesting, Appl. Math. Comput. 217 (2011) 9085-9104.
[13] A. M. Fink, Almost Periodic Differential Equation, Spring-Verlag,
Berlin, Heidleberg, New York, 1974.
[14] C. Y. He, Almost Periodic Differential Equations, Higher Education
Press, 1992 (in Chinese).
[15] W. A. Coppel, Dichotomies in Stability Theory, Lecture Notes in
Mathematics, Springer, Berlin, Germany, 1978.
[16] R. P. Agarwal, M. Meehan, D. O’Regan, Fixed Point Theory and
Applications, Cambridge University Press, 2004.</p>
@article{"International Journal of Engineering, Mathematical and Physical Sciences:65392", author = "Yongzhi Liao", title = "Almost Periodicity in a Harvesting Lotka-Volterra Recurrent Neural Networks with Time-Varying Delays", abstract = "By using the theory of exponential dichotomy and Banach fixed point theorem, this paper is concerned with the problem of the existence and uniqueness of positive almost periodic solution in a delayed Lotka-Volterra recurrent neural networks with harvesting terms. To a certain extent, our work in this paper corrects some result in recent years. Finally, an example is given to illustrate the feasibility and effectiveness of the main result.
", keywords = "positive almost periodic solution, Lotka-Volterra, neural
networks, Banach fixed point theorem, harvesting", volume = "7", number = "5", pages = "903-4", }
