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Journal of Experimental & Theoretical Artificial Intelligence Volume 30, 2018 - Issue 2
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Articles

Almost periodic cellular neural networks with neutral-type proportional delays

Songlin XiaoAcademy of Intelligent Software, Guangzhou University, Guangdong Provincial Engineering Technology Research Center for Mathematical Educational Software, Guangzhou, P.R. China.Correspondence[email protected]
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Pages 319-330 | Received 13 Feb 2017, Accepted 14 Jan 2018, Published online: 08 Feb 2018

References

  • Chen, Z. (2013). A shunting inhibitory cellular neural network with leakage delays and continuously distributed delays of neutral type. Neural Computing & Applications, 23, 2429–2434.
  • Derfel, G. A. (1982). On the behaviour of the solutions of functional and functional-differential equations with several deviating arguments. Ukrainian Mathematics Journal, 34, 286–291.
  • Derfel, G. A. (1990). Kato problem for functional-differential equations and difference Schrödinger operators. Birkhäuser Basel, 46, 319–321.
  • Diagana, T. (2006). Weighted pseudo almost periodic functions and applications. Comptes Rendus Mathematique, 343(10), 643–646.
  • Diagana, T. (2008). Weighted pseudo-almost periodic solutions to some differential equations. Nonlinear Analysis, 68, 2250–2260.
  • Dovrolis, C., Stiliadisd, D., & Ramanathan, P. (1999). Proportional differentiated services: Delay differentiation and packet scheduling. Conference on Applications. ACM, 29(4), 109–120.
  • Fink, A. M. (1974). Almost periodic differential equations. In A. M. Fink (Ed.), Lecture notes in mathematics (Vol. 377, pp. 1–20). Berlin: Springer.
  • Forti, M., Nistri, P., & Papini, D. (2005). Global exponential stability and global convergence in finite time of delayed neural networks with infinite gain. IEEE Transactions on Neural Networks, 16(6), 1449–1463.
  • Huang, Z. (2017). Almost periodic solutions for fuzzy cellular neural networks with multi-proportional delays. International Journal of Machine Learning & Cybernetics, 8, 1323–1331.
  • Liu, B. (2015a). Pseudo almost periodic solutions for neutral type CNNs with continuously distributed leakage delays. Neurocomputing, 148, 445–454.
  • Liu, B. (2015b). Pseudo almost periodic solutions for CNNs with continuously distributed leakage delays. Neural Processing Letters, 42, 233–256.
  • Liu, B. (2017). Finite-time stability of CNNs with neutral proportional delays and time-varying leakage delays. Mathematical Methods in the Applied Sciences, 40, 167–174.
  • Liu, X. (2015). Exponential convergence of SICNNs with delays and oscillating coefficients in leakage terms. Neurocomputing, 168, 500–504.
  • Liu, B., & Huang, L. (2005). Existence and exponential stability of almost periodic solutions for cellular neural networks with time-varying delays. Physics Letters A, 341(1–4), 135–144.
  • Liu, B., & Huang, L. (2007). Existence and exponential stability of almost periodic solutions for cellular neural networks with mixed delays. Chaos, Solitons & Fractals, 32, 95–103.
  • Liu, B., & Huang, L. (2008). Positive almost periodic solutions for recurrent neural networks. Nonlinear Analysis Real World Application, 9, 830–841.
  • Liu, B., & Tunc, C. (2015). Pseudo almost periodic solutions for CNNs with leakage delays and complex deviating arguments. Neural Computing and Applications, 26, 429–435.
  • Long, S., Teng, L., & Xu, D. (2012). Global attracting set and stability of stochastic neutral partial functional differential equations with impulses. Statistics & Probability Letters, 82(9), 1699–1709.
  • Lu, W., & Chen, T. (2005). Global exponential stability of almost periodic solutions for a large class of delayed dynamical systems. Science China Series A, 8(48), 1015–1026.
  • Mandal, S. N., & Majee, C. (2011). Existence of periodic solutions for a class of Cohen-Grossberg type neural networks with neutral delays. Neurocomputing, 74(6), 1000–1007.
  • Niu, S., Jiang, H., & Teng, Z. (2008). Exponential stability and periodic solutions of FCNNs with variable coefficients and time-varying delays. Neurocomputing, 71, 2929–2936.
  • Niu, S., Jiang, H., & Teng, Z. (2009). Periodic oscillation of FCNNs with distributed delays and variable coefficients. Nonlinear Analysis Real World Application, 10, 1540–1554.
  • Tang, Y. (2017). Pseudo almost periodic shunting inhibitory cellular neural networks with multi-proportional delays. Neural Processing Letters,, 1–13. doi:10.1007/s11063-017-9708-1
  • Teng, L., Long, S., & Xu, D. (2014). On solvability of neutral stochastic functional differential equations with infinite delay. Communication Applied Analysis, 18, 325–344.
  • Wu, J. (2001). Introduction to neural dynamics and signal trasmission delay. Berlin: Walter de Gruyter.
  • Xu, Y. (2014). New results on almost periodic solutions for CNNs with time-varying leakage delays. Neural Computing & Applications, 25, 1293–1302.
  • Xu, D., Li, B., Long, S., Teng, L., & Zhou, W. (2014). Existence and moment estimates for solutions to neutral stochastic functional differential equations. Annals of Differential Equations, 30(1), 62–84.
  • Xu, D., & Yang, Z. (2005). Impulsive delay differential inequality and stability of neural networks. Journal of Mathematical Analysis & Applications, 305, 107–120.
  • Yao, L. (2017). Global exponential convergence of neutral type shunting inhibitory cellular neural networks with D operator. Neural Processing Letters, 45, 401–409.
  • Yao, L. (2018). Global convergence of CNNs with neutral type delays and D operator. Neural Computing & Applications, 29, 105–109.
  • Yu, Y. (2016a). Global exponential convergence for a class of neutral functional differential equations with proportional delays. Mathematical Methods in the Applied Sciences, 39, 4520–4525.
  • Yu, Y. (2016b). Global exponential convergence for a class of HCNNs with neutral time-proportional delays. Applied Mathematics and Computation, 285, 1–7.
  • Zhang, A. (2017a). Pseudo almost periodic solutions for neutral type SICNNs with D operator. Journal of Experimental & Theoretical Artificial Intelligence, 29, 795–807.
  • Zhang, A. (2017b). Almost periodic solutions for SICNNs with neutral type proportional delays and D operators. Neural Processing Letters,, 1–16. doi:10.1007/s11063-017-9631-5
  • Zhang, C. (2003). Almost periodic type functions and ergodicity. Beijing: Kluwer Academic/Science Press.
  • Zhao, C., & Wang, Z. (2015). Exponential convergence of a SICNN with leakage delays and continuously distributed delays of neutral type. Neural Processing Letters, 41, 239–247.
  • Zhou, Q., & Shao, J. (2016). Weighted pseudo anti-periodic SICNNs with mixed delays. Neural Computing & Applications,, 1–13. doi:10.1007/s00521-016-2582-3

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