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International Journal of Systems Science Volume 49, 2018 - Issue 2
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Original Articles

Global exponential periodicity and stability of memristor-based complex-valued delayed neural networks

Dan LiuDepartment of Statistics, China University of Mining and Technology, Xuzhou, P.R. ChinaView further author information
,
Song ZhuDepartment of Statistics, China University of Mining and Technology, Xuzhou, P.R. ChinaCorrespondence[email protected]
View further author information
&
Er YeDepartment of Fundamental Mathematics, Southeast University, Nanjing, P.R. ChinaView further author information
Pages 231-245 | Received 27 Apr 2017, Accepted 17 Oct 2017, Published online: 06 Nov 2017

References

  • Bao, G., & Zeng, Z. (2013). Multistability of periodic delayed recurrent neural network with memristors. Neural Computing and Applications, 23, 1963–1967.
  • Cao, J. (2003). New results concerning exponential stability and periodic solutions of delayed cellular neural networks. Physics letters A, 307, 136–147.
  • Chen, B., & Wang, J. (2005). Global exponential periodicity of a class of recurrent neural networks with oscillating parameters and time-varying delays. IEEE Transactions on Neural Networks and Learning Systems, 16, 1440–1448.
  • Chen, H. (2013). Improved stability criteria for neural networks with two additive time-varying delay components. Circuits Systems and Signal Processing, 32, 1977–1990.
  • Chen, H., & Zhao, Y. (2015). Delay-dependent exponential stability for uncertain neutral stochastic neural networks with interval time-varying delay. International Journal of Systems Science, 46(14), 2584–2597.
  • Chen, X., & Song, Q. (2013). Global stability of complex-valued neural networks with both leakage time delay and discrete time delay on time scales. Neurocomputing, 121, 254–264.
  • Chua, L. (1971). Memristor-the missing circuit element. IEEE Transactions on Circuit Theory, 18(5), 507–519.
  • Corinto, F., Ascoli, A., & Gilli, M. (2011). Nonlinear dynamics of memristor oscillators. IEEE Transactions on Circuits and Systems, 58, 1323–1336.
  • Dugundji, J., & Grranas, A. (1986). Fixed point theory, in: Monografie Matematyczne. Warsaw: PWN.
  • .Fang, T., & Sun, J. (2014). Stability of complex-valued recurrent neural networks with time-delays. IEEE Transactions on Neural Networks and Learning Systems, 25(9), 1709–1713.
  • Filippov, A. (1988). Differential equations with discontinuous right-hand sides. Dordrecht: Kluwer.
  • Gao, L., Alibart, F., & Strukov, D. (2013). Programmable CMOS/memristor threshold logic. IEEE Transactions on Nanotechnology, 12(2), 115–119.
  • Gao, Z., Yang, K., Shen, Y., & Ji, Z. (2015). Input-to-state stability analysis for a class of nonlinear switched descriptor systems. International Journal of Systems Science, 46(16), 2973–2981.
  • Guo, Z., Wang, J., & Yan, Z. (2013). Global exponential dissipativity and stabilization of memristor-based recurrent neural networks with time-varying delays. Neural Networks, 48, 158–172.
  • He, X., Huang, T., Yu, J., Li, C., & Li, C. (2017). An inertial projection neural network for solving variational inequalities. IEEE Transactions on Cybernetics, 47, 809–814.
  • Hong, X., Yan, K., & Wang, B. (2006). Existence and global exponential stability of periodic solution for delayed high-order Hopfield-type neural networks. Physics Letters A, 352, 341–349.
  • Huang, T., Li, C., Duan, S., & Starzyk, J. (2012). Robust exponential stability of uncertain delayed neural networks with stochastic perturbation and impulse effects. IEEE Transactions on Neural Networks and Learning Systems, 23, 866–875.
  • Hu, J., & Wang, J. (2012). Global stability of complex-valued recurrent neural networks with time-delays. IEEE Transactions on Neural Networks and Learning Systems, 23, 853–865.
  • Itoh, M., & Chua, L. (2009). Memristor cellular automata and memristor discrete-time cellular neural networks. International Journal of Bifurcation and Chaos, 19, 3605–3656.
  • Li, H., Chen, G., Huang, T., & Dong, Z. (2017). High-performance consensus control in networked systems with limited bandwidth communication and time-varying directed topologies. IEEE Transactions on Neural Network and Learning System, 28, 1043–1054.
  • Liu, X., & Cao, J. (2009). On periodic solutions of neural networks via differential inclusions. Neural Networks, 22, 329–334.
  • Li, X., Rakkiyappan, R., & Velmurugan, G. (2015). Dissipativity analysis of memristor-based complex-valued neural networks with time-varying delays. Information Sciences, 294, 645–665.
  • Papini, D., & Taddei, V. (2005). Global exponential stability of the periodic solution of a delayed neural network with discontinuous activations. Physics letters A, 343, 117–128.
  • Rakkiyappan, R., Sivaranjani, K., & Velmurugan, G. (2014). Passivity and passification of memristor-based complex-valued recurrent neural networks with interval time-varying delay. Neurocomputing, 144, 391–407.
  • Rakkiyappan, R., Velmurugan, G., & Cao, J. (2014). Finite-time stability analysis of fractional-order complex-valued memristor-based neural networks with time delays. Nonlinear Dynamics, 78, 2823–2836.
  • Rakkiyappan, R., Velmurugan, G., & Li, X. (2015). Complete stability analysis of complex-valued neural networks with time delays and impulses. Neural Processing Letters, 41, 435–468.
  • Saravanakumar, R., Syed Ali, M., Cao, J., & Huang, H. (2016). H∞ state estimation of generalised neural networks with interval time-varying delays. International Journal of Systems Science, 47(16), 3888–3899.
  • Strukov, D., Snider, G., Stewart, G., & Williams, R. (2008). The missing memristor found. Nature, 453, 80–83.
  • Tour, J., & He, T. (2008). The fourth element. Nature, 453, 42–43.
  • Velmurugan, G., Rakkiyappan, R., & Lakshmanan, S. (2015). Passivity analysis of memristor-based complex-valued neural networks with time-varying delays. Neural Processing Letters, 42, 517–540.
  • Wang, H., Duan, S., Huang, T., Wang, L., & Li, C. (2017). Exponential stability of complex-valued memristive recurrent neural networks. IEEE Transactions on Neural Networks and Learning Systems, 28(3), 766–771.
  • Wang, H., Huang, T., Liao, X., Abu-Rub, H., & Chen, G. (2016). Reinforcement learning in energy trading game among smart microgrids. IEEE Transactions on Industrial Electronics, 63, 5109–5119.
  • Wang, J., Huang, L., & Guo, Z. (2009). Dynamical behavior of delayed Hopfield neural networks with discontinuous activations. Applied Mathematical Modelling, 33, 1793–1802.
  • Wang, J., Gao, Y., Qiu, J., & Ahn, C. (2016). Sliding mode control for nonlinear systems by T-S fuzzy model and delta operator approaches. IET Control Theory and Applications. Advance online publication. doi:10.1049/iet-cta.2016.0231
  • Wang, L., Shen, Y., Yin, Q., & Zhang, G. (2015). Adaptive synchronization of memristor-based neural networks with time-varying delays. IEEE Transactions on Neural Networks and Learning Systems, 26(9), 2033–2042.
  • Wang, T., Ding, Y., Zhang, L., & Hao, K. (2015). Delay-dependent exponential state estimators for stochastic neural networks of neutral type with both discrete and distributed delays. International Journal of Systems Science, 46(4), 670–680.
  • Wen, G., Huang, T., Yu, W., Xia, Y., & Liu, Z. (2017). Cooperative tracking of networked agents with a high-dimensional leader: Qualitative analysis and performance evaluation. IEEE Transactions on Cybernetics. Advance online publication. doi:10.1109/TCYB.2017.2726441
  • Wen, S., & Zeng, Z. (2012). T Huang, Exponential stability analysis ofmemristor-based recurrent neural networks with time-varying delays. Neurocomputing, 97, 233–240.
  • Wu, A., & Zeng, Z. (2012). Dynamic behaviors of memristor-based recurrent neural networks with time-varying delays. Neural Networks, 36, 1–10.
  • Wu, A., & Zeng, Z. (2014). Input-to-state stability of memristive neural system with time delays. Circuits Systems and Signal Processing, 33, 681–698.
  • Xue, X., & Yu, J. (2007). Periodic solutions for semi-linear evolution inclusions. Journal of Mathematical Analysis and Applications, 331, 1246–1262.
  • Zhang, G., & Shen, Y. (2014). Exponential synchronization of delayed memristor-based chaotic neural networks via periodically intermittent control. Neural Networks, 55, 1–10.
  • Zhang, G., Shen, Y., & Wang, L. (2013). Global anti-synchronization of a class of chaotic memristive neural networks with time-varying delays. Neural Networks, 46, 1–8.
  • Zhang, G., Shen, Y., Yin, Q., & Sun, J. (2013). Global exponential periodicity and stability of a class of memristor-based recurrent neural networks with multiple delays. Information Sciences, 232, 386–396.
  • Zhang, Y., Shen, Y., Wang, X., & Cao, L. (2015). A novel design for memristor-based logic switch and crossbar circuits. IEEE Transactions on Circuits and Systems, 62, 1402–1411.
  • Zhang, Z., Lin, C., & Chen, B. (2014). Global stability criterion for delayed complex-valued recurrent neural networks. IEEE Transactions on Neural Networks and Learning Systems, 25(9), 1704–1708.
  • Zhong, K., Zhu, S., & Yang, Q. (2016). Further results for global exponential stability of stochastic memristor-based neural networks with time-varying delays. International Journal of Systems Science, 47(15), 3573–3580.
  • Zhou, B., & Song, Q. (2013). Boundedness and complete stability of complex-valued neural networks with time delay. IEEE Transactions on Neural Networks and Learning Systems, 24(8), 1227–1238.
  • Zhou, Q., Wu, C., & Shi, P. (2016). Observer-based adaptive fuzzy tracking control of nonlinear systems with time delay and input saturation. Fuzzy Sets and Systems. Advance online publication. doi:10.1016/j.fss.2016.11.002
  • Zhu, S., & Shen, Y. (2013). Two algebraic criteria for input-to-state stability of recurrent neural networks with time-varying delays. Neural Computing and Applications, 22, 1163–1169.
  • Zhu, S., Yang, Q., & Shen, Y. (2016). Noise further expresses exponential decay for globally exponentially stable time-varying delayed neural networks. Neural Networks, 77, 7–13.

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